The Life Scientific

As recently as a few years ago, the idea of a self-administered injection that would deliver proven weight-loss results might have sounded fantastical. Today, these medications are a reality and a global phenomenon; hailed in many quarters as “miracle drugs" for their success in treating obesity and diabetes. They do this by replicating a gut hormone called GLP‑1, which tells the brain you’ve eaten enough and nudges the pancreas to release insulin; and this hormone was discovered and decoded thanks to years of work by today's guest. Jens Juul Holst is a Professor of Medical Physiology and Biomedical Sciences at the University of Copenhagen. His efforts laid the groundwork for today’s weight loss jabs, earning him a slew of high-profile accolades and awards. Now it seems they might not only have positive impacts on obesity and diabetes, but also other health issues... But alongside the big success comes some big questions: including concerns over side effects, weight regain post-treatment, the black market in such drugs, and their cost and accessibility. In a frank conversation with Professor Jim Al-Khalili, Jens address these issues and shares his hopes for the future of GLP-1-focused research. Presented by Jim Al-Khalili Produced by Lucy Taylor A BBC Studios production

It's a rare thing to encounter a medical specialist who has experience of his field from the expert and the patient perspective - but not unheard of... Jim Ashworth-Beaumont is an orthotist and prosthetist who spent years helping people adapt to life with artificial limbs and musculoskeletal supports, before a near-fatal accident left him relying on both. This twist of fate might have derailed many - but Jim drew on reserves of resilience and determination forged long before his accident; initially in the army, then by returning to education to earn the qualifications he missed out on as a youngster. He put himself through night school before earning a place to study Prosthetics and Orthotics at the University of Strathclyde. Later, while working at London’s Royal National Orthopaedic Hospital, Jim completed a Master’s in Neurorehabilitation, and a PhD in Health Studies – driven by a fascination with how the human body adapts under pressure. But in 2020, while training for a triathlon, Jim was involved in a catastrophic cycling accident that nearly killed him - and cost him an arm. He tells Jim Al-Khalili how the incident gave him a whole new insight into his patients’ experience and made him more determined than ever to achieve his goals. Presented by Jim Al-Khalili Produced by Lucy Taylor A BBC Studios production for Radio 4

Ever heard of the unsuccessful Dutch painter who decided to humiliate his critics by forging Vermeers, which the artworld subsequently dubbed 'masterpieces'? Or the businessman who bought a Marc Chagall painting that he displayed with pride for years, before a television investigation revealed to his horror that it was a fake? Today we're exploring the scientific techniques used to reveal forged artworks - and bring down scammers still trying to make millions from fake masterpieces. Jehane Ragai is an Emeritus Professor of Chemistry at the American University in Cairo, with a passion for science matched by her love of arts and culture. Early in her career Jehane helped analyse the Great Sphinx of Giza and later became fascinated by the world of art forgery, leading to her acclaimed book, ‘The Scientist and the Forger’. Her life has not been without its difficulties, but - perhaps unsurprisingly, as the daughter of renowned Egyptian feminist Doria Shafik - she’s not one to shy away from a challenge. And as she tells Professor Jim Al-Khalili, Jehane feels priveleged to have been able to integrate her twin passions into a career; advice she now passes on to her students. Presented by Jim Al-Khalili Produced by Lucy Taylor A BBC Studios production for Radio 4

Tony Juniper is an environmentalist who has worn many hats, over the course of his career. After developing a passion for birds in childhood, his first job saw him working to save endangered parrots - including a successful effort to bring back the Spix's macaw from the edge of extinction. Tony went on to hold leading campaigning roles with some of the world's best known environmental organisations, from Friends of The Earth to the World Wildlife Fund. He also acted as an advisor to King Charles's International Sustainability Unit and co-authored three books with the monarch. Today, Tony has swapped lobbying and campaigning for advising the government, as head of the advisory body Natural England: not without its challenges, but he says they are still outweighed by the positives. Talking to Professor Jim Al-Khalili about his enduring love for nature and hopes for the future, Tony explains his optimism that we can and will recognise the urgent need to protect and restore our planet; and why ultimately, that means saving ourselves. Presented by Jim Al-Khalili Produced by Lucy Taylor for BBC Studios

The COP30 climate summit is taking place in the Brazilian city of Belém, a gateway to the Amazon rainforest, which continues to face widespread deforestation. We all know that our climate is changing and that we are largely responsible for this, but we can’t tackle the problem unless we understand what’s going on. One scientist who’s done more than most to rectify this is Professor Pierre Friedlingstein. He’s a prominent climate scientist and Chair in Mathematical Modelling of the Climate System at Exeter University. His models have transformed our understanding of climate change, revealing a complex dynamical system with carbon at its centre, cycling between the atmosphere, oceans and land, to directly influence the level of carbon dioxide in the atmosphere. Pierre is actively involved in assessing the state of our climate through the Intergovernmental Panel on Climate Change and, as director of the Global Carbon Budget, estimates the remaining amount of carbon dioxide that can be emitted before we breach our global climate targets. It’s the ultimate test of effective climate action and the latest annual update will be released at COP. Pierre explains how we can all play our part to reduce carbon emissions, and he practises what he preaches - he won’t be flying to COP this year so as to minimise his own carbon footprint. Presented by Jim Al-Khalili Produced by Beth Eastwood Executive Producer: Alexandra Feachem A BBC Studios Production

Imagine if you were listening to an opera or a Taylor Swift concert, and as the lights in the auditorium dimmed, the music was accompanied by a rainbow of colours only you could see. Perhaps while listening to your friends talking, you simultaneously experience a smorgasbord of tastes, with different words evoking different flavours, maybe a delicious ice cream, or something as disgusting as ear wax... This merging of the senses is known as synaesthesia, and it’s the rich research world of neuropsychologist Professor Julia Simner. Julia runs the Multisense lab at the University of Sussex and has pioneered research into understanding how special brains process our sensory world in special ways. In the studio she tests Jim to see if he might be a synaesthete or have aphantasia, which is the inability to view images in the mind’s eye. The results are surprising. Julia’s discovered links to autism, and to different personality types, as well as a number of previously unknown sensory differences. She describes her career and her life as a series of swerves, or sliding door moments, that have led her to study the subject and the people she’s passionate about. She says that the more she looks for these unusual traits in us the more she finds. Presenter Jim Al-Khalili Producer Geraldine Fitzgerald Executive Producer Alexandra Feachem

Caroline Smith is passionate about space rocks, whether they’re samples collected from the surface of asteroids and the Moon and hopefully Mars one day soon, or meteorites, those alien rock fragments that have survived their fiery descents through our atmosphere to land here on Earth. She is Head of Collections and Principal Curator of Meteorites at the Natural History Museum, home to one of the finest meteorite collections in the world. Her interest in rocks began while wandering the foothills of the Rocky Mountains, as a child, picking up the ones that caught her eye and bashing them with a hammer, hoping to find treasure inside, whether it’s gold, diamonds or dinosaur fossils. Her work today, studying rocks that have landed here on Earth or those still out there in space, is no less ambitious. She analyses their chemical composition looking for tantalising clues that might reveal how our Solar System formed, and potentially the presence of the chemical building blocks necessary for life itself. Presented by Jim Al-Khalili Produced by Beth Eastwood Executive Producer: Alexandra Feachem BBC Studios Production

From humble beginnings in his native Sri Lanka, to a more than 40 year academic career at Queen’s University Belfast, Prof. AP (Amilra Prasanna) De Silva’s research into molecular photosensors has led to a pioneering career in that’s evolved from chemistry to medical diagnostics on one hand, to information processing on the other. Prof. De Silva challenged cultural expectations and overcame the lack of opportunities in chemistry that were available in Sri Lanka in the early 1970s. He first moved to Belfast to pursue research in photochemistry at Queen’s University. Inspired by his grandmother’s struggle with high blood pressure he engineered a unique sodium photosensor by marrying fluorescent molecules with chemical receptors. As a result of his international collaborations, a commercial, portable sensor was developed to detect salts and minerals in the blood. Its speed of analysis has since saved countless lives and improved healthcare around the world. AP talks to Jim Al-Khalili about his passion for engineering molecules and how his photochemical innovations have since crossed into computer science. They’ve been developed to perform molecular computations far inside the human body - where silicon microchips fear to tread. A new deeper understanding of life inside our tissues and cells beckons. Presented by Jim Al-Khalili Produced by Adrian Washbourne Executive Producer: Alexandra Feachem A BBC Studios Production

There are problems and tasks so hard and complicated that it would take today’s most powerful supercomputers millions of years to crack them. But in the next decade, we may well have quantum computers which could solve such problems in seconds. Professor Sir Peter Knight is a British pioneer in the realms of quantum optics and quantum information science. During his three decades as a researcher at Imperial College London, he has advanced our understanding of the physics which underpins how quantum computers work. Quantum optics was a new field of physics at the start of Peter Knight’s career in the early 1970s and he tells Jim Al-Khalili about the excitement and opportunities for a young scientist at the birth of a new scientific discipline. He also talks about the UK National Quantum Technologies Programme. Since his retirement in 2010, Peter Knight has been the driving force behind this £1 billion government-funded endeavour which has positioned the UK as a world leader in the development and commercialisation of quantum computing and other revolutionary quantum inventions. Producer: Andrew Luck-Baker Executive Producer: Alexandra Feachem A BBC Studios Production

In July 1545, King Henry VIII watched from Southsea Castle on England's south coast as his fleet sailed out to face the French - only to witness his prized warship, the Mary Rose, sink before his eyes. Raised from the Solent in 1982, the ship is now the centrepiece of the Mary Rose Museum, along with thousands more artefacts that were recovered from the seabed. But keeping the 500-year-old ship and its associated Tudor relics in good condition is no small task, which is where Dr Eleanor Schofield comes in. As Director of Collections at the Mary Rose Trust and a materials engineer by training, Eleanor has spent years tackling the unique scientific challenges of conserving centuries-old wood and metal. From the United States to Portsmouth, Eleanor's research is helping ensure this iconic vessel remains 'ship-shape' for generations to come. In a special edition of The Life Scientific, recorded in front of an audience at the museum in Portsmouth's Historic Dockyards, Professor Jim Al-Khalili discovers how cutting-edge science is keeping history afloat. Presented by Jim Al-Khalili Produced by Lucy Taylor for BBC Studios

"My ideas are often labelled as impossible, or useless, or both. Usually when people say that I'm on the right track." George Church is a geneticist, molecular engineer, and one of the pioneers of modern genomics. He's also someone who makes a habit of finding solutions to the seemingly impossible. Over the course of his career so far, George developed the first method for direct genomic sequencing, helped initiate the Human Genome Project, and founded the Personal Genome Project: making huge quantities of DNA data publicly available for research. Today, as a professor at Harvard Medical School and MIT, he’s working on some of the most headline-grabbing - and controversial - science on the planet: from the so-called "de-extinction" of woolly mammoths, to growing transplant-suitable organs in pigs, to virus-proofing humans. When inspiration strikes, there seems to be little that will slow him down - even the fact that he has narcolepsy, the neurological disorder that causes sudden sleep attacks. In fact, as George tells Professor Jim Al-Khalili, some of his best ideas come in those moments between waking and sleep... Presented by Jim Al-Khalili Produced by Lucy Taylor for BBC Studios

Movies might have us believe that bomb disposal comes down to cutting the right wire. In fact, explosive devices are complex and varied - and learning how to dispose of them safely involves intense training, as well as the ability to stay calm under pressure. This was the world of Dr Gareth Collett, a retired British Army Brigadier General and engineer, specialising in bomb disposal; whose 32-year military career took him around the world, including heading up major ordnance clearance projects in Iraq and Afghanistan. After retiring from the army, Gareth became a university lecturer – but following his diagnosis with bladder cancer, started researching a possible link between bomb disposal veterans and higher rates of urological cancers. In conversation with Professor Jim Al-Khalili, Gareth discusses this ongoing research, dealing with PTSD - and why he just can't watch Oscar-winning movie The Hurt Locker... Presented by Jim Al-Khalili Produced by Lucy Taylor for BBC Studios

Many people will be familiar with Parkinson’s disease: the progressive brain disorder that causes symptoms including tremors and slower movement, leading on to serious cognitive problems. You might not know that it’s the fastest-growing neurological condition in the world. Today it affects around 11.8 million people and that’s forecast to double by 2030. Dr Sonia Gandhi is one of the scientists working to change that trend. As Professor of Neurology at University College London and Assistant Research Director at the Francis Crick Institute, her work involves using stem cells to build models of the human brain, helping to drive the development of drugs and other therapies for Parkinson’s patients. Talking to Professor Jim Al-Khalili, Sonia explains why this destructive condition is on the rise - and the promising routes they're studying to find new ways to tackle it. Presented by Jim Al-Khalili Produced by Lucy Taylor for BBC Studios For details of organisations that offer advice and support to anyone affected by Parkinson's Disease, please go online to bbc.co.uk/actionline.

How do you feel about snakes? What about highly venomous ones? For Mark O’Shea, close encounters with the world’s most rare and deadly snakes are not only his profession, but his passion. Mark is a Professor of Herpetology - the area of zoology focusing on reptiles and amphibians - at the University of Wolverhampton. After dropping out of college in his teens, Mark's life could have taken a very different direction; but prompted by a fascination with reptiles that started with a childhood trip to the zoo, he's gone on to have a career spanning research, international expeditions and broadcasting. He's also worked with international medical teams, studying deadly species and helping to generate antidotes for some of the world’s deadliest venoms. In conversation with Professor Jim Al-Khalili, Mark reveals the challenges around generating antivenom for countries that need it, the pros and cons of keeping snakes as pets, and what you need to know if you ever get bitten... Presented by Jim Al-Khalili Produced by Lucy Taylor for BBC Studios

There can't be many people in the world who've saved lives in hospital emergency rooms and also helped care for the wellbeing of astronauts in space – but Kevin Fong’s career has followed a singular path: from astrophysics and trauma medicine, to working with NASA, to becoming an Air Ambulance doctor. Kevin is a consultant anaesthetist and professor of public engagement and innovation at University College London. He’s worked on the front line in hospitals, dealing with major incidents and helping shape policy; but he's also stayed true to his childhood passion for space, working on multiple projects with NASA and even going through the astronaut application process himself. As if that wasn’t enough, he’s also become a well-known figure in science broadcasting through his various radio and TV shows. Speaking to Professor Jim Al-Khalili, Kevin admits it hasn't always been an easy path – but his passion for both space and medicine have got him through. And today, he's channelling his energies into ensuring we protect the NHS's most precious commodity: its staff. Presented by Jim Al-Khalili Produced by Lucy Taylor This programme was a BBC Studios Audio prouction for Radio 4.

Chemical reactions are the backbone of modern society: the energy we use, the medicines we take, our housing materials, even the foods we eat, are created by reacting different substances together. If we zoom in, it’s the atoms within these substances that rearrange themselves to give rise to new substances with the properties we need. However, chemical reactions are far from perfect. They're often inefficient and their waste products can be harmful to the environment. Getting to grips with what goes on at the scale of individual atoms has long been a sticking point. Dame Pratibha Gai has spent much of her career pioneering novel microscopes to bring this seemingly inaccessible atomic world into sharp focus. Now Emeritus Professor of Chemistry at York University, her microscope, known as the environmental transmission electron microscope, is housed in labs around the world. It allows scientists, like herself, to observe chemical reactions in real-time, in exquisite atomic detail, and tinker with them to create products that are not only better for all of us, but also the environment. Presented by Jim Al-Khalili Produced by Beth Eastwood A BBC Studios Audio production for Radio 4

Have you ever considered the lighter side of dark matter? Comedy has proved an unexpectedly succesful way to engage people with science - as today's guest knows first-hand. Astrophysicist Catherine Heymans is a Professor at the University of Edinburgh and the current Astronomer Royal for Scotland. She’s spent her career studying dark matter and dark energy: the mysterious ingredients that make up an estimated 95% of our cosmos, but which we still know surprisingly little about. Using increasingly powerful telescopes, both on earth and in space, Catherine has spent years building detailed maps of dark matter - even to the extent of capturing rare images of this mysterious cosmic component. On top of her research achievements, she's committed to making science accessible to all; not least by taking an astronomy-themed comedy show to the Edinburgh Festival and beyond. In conversation with Professor Jim Al-Khalili, Catherine talks about her passion for sharing the joys of astrophysics - and reveals how health challenges over the last few years have forced her to readdress her career, her ambitions and even her sense of self... Presented by Jim Al-Khalili Produced by Lucy Taylor

As a young man, traveling in Africa, Tim Coulson - now Professor of Zoology at the University of Oxford - became seriously ill with malaria and was told a second bout would probably kill him. Aged only 20, this brush with his own mortality led him to promise himself he would write a complete guide to science: life, the universe and everything. His aim was to understand the existence of all living things - no mean feat! Over the course of a colourful career, Tim's work has taken him all over the world: including researching wolves in Yellowstone National Park, little fish called guppies in the rivers of Trinidad and silvereye birds on Heron Island on the Great Barrier Reef. Using complicated mathematical models he builds up a picture of ecosystems seeking to explain how predators impact both evolution and ecosystems. And finally, more than thirty years after he vowed to write the book that would explain everything we know about science, he's done just that. In conversation with Professor Jim Al-Khalili, Tim talks about his journey from youthful ambition to science demystifier. Presented by Jim Al-Khalili Produced by Geraldine Fitzgerald

Claudia de Rham has rather an unusual relationship with gravity. While she has spent her career exploring its fundamental nature, much of her free time has involved trying to defy it - from scuba diving in the Indian Ocean to piloting small aircraft over the Canadian waterfalls. Her ultimate ambition was to escape gravity’s clutches altogether and become an astronaut, a dream that was snatched away by an unlikely twist of fate. However, Claudia has no regrets - and says defying gravity for much of her life has helped her to truly understand it. As Professor of theoretical physics at Imperial College London, she now grapples with deep mathematics, where the fields of particle physics, gravity and cosmology intersect, on a quest to understand how the universe really works. She is a pioneer of the theory of massive gravity, a theory which could take us beyond even Einstein’s theory of relativity and shed light on why the universe is expanding at an ever-increasing rate. Presented by Jim Al-Khalili Produced by Beth Eastwood

When you think of Artificial Intelligence, does it inspire confidence, or concern? Although it's now generally accepted that this technology will play a major role in our future, a lot of conversations around AI and machine learning come back to the argument over us losing control and robots taking over. Happily, Neil Lawrence has a more optimistic view of the power of AI, and how we might navigate the potential pitfalls. Neil is the DeepMind Professor of Machine Learning at the University of Cambridge, and over the course of his career has been involved in deploying AI and machine learning in both academic and commercial scenarios, with a stint at Amazon as well as working across fields as varied as movie animation, Formula 1 strategy, and medical research. Speaking with Professor Jim Al-Khalili, Neil says ultimately his efforts are all about making a difference to our everyday lives - and that we need to learn how to embrace AI, albeit with a healthy dollop of scepticism; not least when it comes to how our data is used, and the power of 'the digital oligarchy'... Presented by JIm Al-Khalili Produced for BBC Studios by Lucy Taylor

A frozen, white world at the far-reaches of the globe, where you're surrounded by snow and silence, might sound rather appealing. Factor in temperatures that drop to -57°C and a few of us might be put off - but for glaciologist Liz Morris, that's very much her happy place. Liz is an Emeritus Associate at the University of Cambridge’s Scott Polar Research Institute, and was among the first British women scientists to work on the planet’s coldest continent, Antarctica. Over the course of her career, Liz has gathered vital data on polar ice sheets and how they’re affected by climate change. She's also made numerous research trips across the Greenland Ice Shelf, and has a glacier named after her in Antarctica. In conversation with Professor Jim Al-Khalili, Liz discusses her fascination with glaciers and ice - and explains her unwavering determination to break into what was once a heavily male-dominated field. Presented by Jim Al-Khalili Produced for BBC Studios by Lucy Taylor

Welcome to a world where medicine meets politics: a space that brings together scientific research, government wrangling, public push-back and healthcare conspiracies… Dr Anthony Fauci was the Director of America’s National Institute of Allergy and Infectious Diseases for nearly four decades, during which time he not only helped study, treat and prevent viruses such as HIV/AIDS and Covid-19; he also advised seven US Presidents, from Ronald Regan through to Joe Biden. Along the way, Tony Fauci's picked up a public profile and taken a fair amount of flack; not least because of his complicated relationship with President Donald Trump. But he's also made great strides in medical research and policy, from working with activists who initially challenged him on the government response to HIV/AIDS - to spearheading the USA's PEPFAR project to share vital medication with developing nations. In a candid conversation with Professor Jim Al-Khalili, Tony discusses his childhood in Brooklyn, the dark early days of the HIV/AIDS epidemic, lessons from the Covid-19, his hopes and fears for the future of American health policy – and his reaction to that pre-emptive pardon from President Biden. Presented by Jim Al-Khalili Produced for BBC Studios by Lucy Taylor

Have you ever pondered the fact that the universe is expanding? And not only that, it's expanding at an increasing speed - meaning everything around us is getting further and further away? If that isolating thought makes you feel slightly panicked, don't worry: this programme also contains wine! Brian Schmidt is a Distinguished Professor of Astrophysics at the Australian National University, known for his work on supernovae: massive explosions that take place when stars come to the ends of their lives. They are among the most energetic events in the universe and incredibly difficult to find; but that’s what his High-Z Supernova Search Team did, identifying enough of these rare and distant explosions to measure just how fast they were moving away from us. This led them to the realisation that, contrary to long-held belief in cosmology, the expansion of the universe was speeding up; a discovery which earned Brian a share of the 2011 Nobel Prize for Physics. As if that wasn't enough, he's gone on to discover one of the earliest stars in the universe; run a university; and become a winemaker, at his very own vineyard just outside Canberra. In a conversation spanning the genius phraseology of writer Douglas Adams, the importance of pisco sours, and the similarities between astronomy and viticulture, Brian tells Professor Jim Al-Khalili how his supernovae breakthrough paved the way for a revolution in astronomy - and where the field needs to go next... Presented by Jim Al-Khalili Produced for BBC Studios by Lucy Taylor

How much information can you extract from a burnt fragment of human bone? Quite a lot, it turns out - not only about the individual, but also their broader lives and communities; and these are the stories unearthed by Jacqueline McKinley, a Principal Osteoarchaeologist with Wessex Archaeology. During her career, Jackie has analysed thousands of ancient burial sites across the British Isles, bringing to life the old traditions around death via often cremated human remains. She's also assisted criminal investigators with forensic analysis, and contributed to some of the UK's best-loved archaeological TV shows. And one thing she’s absolutely clear about: far from being macabre, osteoarchaeology is more about the living, than the dead... In conversation with Professor Jim Al-Khalili, Jackie talks about the stories we can derive from skeletal remains, how western attitudes to death have gone through a major recent shift, and why she's kept some of her late father's bones. Presented by Jim Al-Khalili Produced for BBC Studios by Lucy Taylor

Surgeons often have to deal with the consequences of violent attacks - becoming all too familiar with patterns of public violence, and peaks around weekends, alcohol-infused events and occasions that bring together groups with conflicting ideals. Professor Jonathan Shepherd not only recognised the link between public violence and emergency hospital admissions, he actually did something about it. As a senior lecturer in Oral and Maxillofacial Surgery in the early 1980s, Jonathan started looking into this trend - and his research revealed that most violent assaults resulting in emergency hospital treatment are not reported to police. As a result, he devised the ‘Cardiff Model for Violence Prevention’: a programme where hospitals share data about admissions relating to violent attacks with local authorities. He also went on to study various aspects of violent assault and deliver evidence-based solutions - from alcohol restrictions in hotspots, to less breakable beer glasses in pubs. The impacts have been significant, delivering reductions in hospital admissions and in violent attacks recorded by police; not only in Cardiff, but in cities around the world where the model is used. Today, as an Emeritus Professor of Oral and Maxillofacial Surgery at Cardiff University - where he’s also Director of their Crime, Security and Intelligence Innovation Institute - Jonathan continues to bring together the medical sector with local authorities, finding practical ways to make cities and their residents safer. But his career, straddling the worlds of practise, science and policy, is an unusual one; here he talks to Professor Jim Al-Khalili about what drove him to make a difference. Presentedby Jim Al-Khalili Produced by Lucy Taylor

Doyne Farmer is something of a rebel. Back in the seventies, when he was a student, he walked into a casino in Las Vegas, sat down at a roulette table and beat the house. To anyone watching the wheel spin and the ball clatter to its final resting place, his choice of number would’ve looked like a lucky guess. But knowing the physics of the game and armed with the world’s first wearable computer, which he’d designed, a seemingly random win was actually somewhat predictable. Doyne is an American scientist and entrepreneur who pioneered many of the fields that define the scientific agenda of our time, from chaos theory and complex systems to wearable computing. He uses big data and evermore powerful computers to apply complex systems science to the economy, to better predict our future. Much like roulette, economics can appear random but, with the right tools and understanding, it is anything but. Now Director of the Complexity Economics Programme at the Institute for New Economic Thinking at Oxford, Doyne says there’s a real need to act, to use these powers of prediction to help resolve one of the most pressing questions of our time - how best to prevent climate change. Presented by Jim Al-Khalili Produced by Beth Eastwood

Elephants are the largest living land mammal and today our planet is home to three species: the African bush elephant, the African forest elephant, and the Asian elephant. But a hundred thousand years ago, in the chilly depths of the Ice Age, multiple species of elephant roamed the earth: from dog-sized dwarf elephants to towering woolly mammoths. These gentle giants' evolutionary story and its parallels with that of humankind has long fascinated Dr Tori Herridge, a senior lecturer in evolutionary biology at the University of Sheffield, where - as a seasoned science broadcaster - she's also responsible for their Masters course in Science Communication. Tori has spent much of her life studying fossil elephants and the sites where they were excavated; trying to establish facts behind relics that are far beyond the reach of Radio Carbon Dating. To date she's discovered dwarf mammoths on Mediterranean islands, retraced the groundbreaking Greek expedition of a female palaeontologist in the early 1900s, and even held an ancient woolly mammoth’s liver. (Verdict: stinky.) But as she tells Professor Jim Al-Khalili, this passion for fossil-hunting is not just about understanding the past: this information is what will help us protect present-day elephants and the world around them for future generations. Presented by Jim Al-Khalili Produced for BBC Studios by Lucy Taylor

What does it take to earn the nickname, ‘The Leonardo da Vinci of heart surgery’? That's the moniker given to today's guest - a man who pioneered high-profile and often controversial procedures, but also helped drive huge medical progress; carrying out around 2,000 heart transplants and 400 dual heart-lung transplants during his 60-year career. Sir Magdi Yacoub is Emeritus Professor of Cardiothoracic Surgery at Imperial College London, and Director of Research at Harefield Hospital’s Magdi Yacoub Institute. Inspired by a surgeon father and impacted by the tragic early death of his aunt from a heart condition, his medical career includes various surgical firsts alongside numerous research projects, to further our understanding of and ability to treat heart disease. He headed up the teams that discovered it is possible to reverse heart failure, and that successfully grew part of a human heart valve from stem cells for the first time. But it hasn't always been plain sailing. At times, his work – such as early, unsuccessful transplant attempts, or using a baboon as a life-support system for a baby – attracted serious public criticism. Speaking to Professor Jim Al-Khalili, Sir Magdi reflects on the highs and lows of his cardio career, and offers his advice to the next generation of surgeons and researchers hoping to make their mark in heart medicine. Presented by Jim Al-Khalili Produced by Lucy Taylor

What's it like living underwater for two weeks? What's the trickiest part of training to be an astronaut? What are the most memorable sights you see from space? Several extreme questions, all of which can be answered by one man: Major Tim Peake. After a childhood packed with outdoor adventures, via the Cub Scouts and school Cadet Force, Tim joined the British Army Air Corps and became a military flying instructor then a test pilot; before eventually being selected as a European Space Agency (ESA) astronaut. In 2015, Tim became the first British ESA astronaut to visit the International Space Station. Over the course of a six-month mission, he took part in more than 250 scientific experiments and worked with more than two million schoolchildren across Europe. In a special New Year’s episode recorded in front of an audience at London’s Royal Society, Professor Jim Al-Khalili talks to Tim about his lifelong passion for adventure, the thrill of flight and why scientific experiments in space are so important. Presented by Jim Al-Khalili Produced by Lucy Taylor

As the famous frog once said, it's not easy being green. And when it comes to decarbonising industry, indeed, reducing emissions of all sorts, the task is a complex one. Fossil fuels are used to manufacture some of mankind’s most ubiquitous products, from plastics to cement to steel; and even in areas where we’re trying to improve our footprint, there are repercussions. Mining lithium for electric car batteries isn’t exactly without impact. Add to the mix stories of corporations prioritising profits, and governments focusing on short-term popular policies – and it would be easy to feel disheartened. Professor Anna Korre says her role is to be the champion of science in this debate: providing clear evidence to help reduce environmental impacts, while allowing vital production processes to continue. Anna is an environmental engineer at Imperial College London and Co-Director of the university’s Energy Futures Lab. Her work has led to a risk model that's now used in mining operations around the world – and her current research into sub-surface CO2 storage could hold the key to decarbonising British industry. But as she tells Jim Al-Khalili, social and familial expectations when she was growing up in her native Greece meant her succesful career in engineering very nearly didn't happen... Presented by Jim Al-Khalili Producer by Lucy Taylor

Rosalie David is a pioneer in the study of ancient Egypt. In the early 1970s, she launched a unique project to study Egyptian mummified bodies using the techniques of modern medicine. Back then, the vast majority of Egyptologists regarded mummies as unimportant sources of information about life in ancient Egypt. Instead they focussed on interpreting hieroglyphic inscriptions, the written record in papyrus documents and archaeological remains and artefacts. Rosalie David proved that the traditionalists were quite wrong. Professor David’s mummy research started at the Manchester Museum when she began to collaborate with radiologists at the nearby Manchester Royal Infirmary, taking the museum’s mummies for x-rays at the hospital. Her multi-disciplinary team later moved to a dedicated institute at the University of Manchester, the KNH Centre for Biomedical Egyptology. Over the decades, the team there has made remarkable discoveries about disease and medicine in ancient Egyptian society, providing a new perspective on the history of medicine and giving extraordinary insights into the lives of individuals all those years ago. Rosalie tells Jim Al-Khalili about her journey from classics and ancient history to biomedicine, including some of her adventures in Egypt in the 1960s. She talks about some of her most significant research projects, and the 21st Century forensic detective work on the mummy of a young woman which revealed a gruesome murder 3,000 years ago... Presented by Jim Al-Khalili Produced by Andrew Luck-Baker

In the summer of 2003, Europe experienced its most intense heatwave on record - one that saw more than 70,000 people lose their lives. Experiencing the effects whilst on holiday in Tuscany, climate scientist Peter Stott was struck by the idea that just maybe, he could use a modelling system developed by his team at the UK’s Met Office Hadley Centre, to study extreme weather events such as this very heatwave mathematically; and figure out the extent to which human influences were increasing their probability. That’s exactly what he went on to do - and, through this work and more, Peter has helped to shine a light on the causes and effects of climate change. His career, predominantly at the Met Office Hadley Centre, has seen him take on climate change sceptics and explain the intricacies of greenhouse gas emissions to global leaders. His work with the Intergovernmental Panel on Climate Change even earned him a share of the 2007 Nobel Peace Prize. But the biggest challenge remains: Peter talks to Jim Al-Khalili about whether humanity can adapt quickly enough to deal with the increasingly dangerous effects of our warming world... Presented by Jim Al-Khalili Produced by Lucy Taylor

Imagine a nanoparticle, less that a thousandth of the width of a human hair, that is so precise that it can carry a medicine to just where it’s needed in the body, improving the drug’s impact and reducing side effects. Ijeoma Uchegbu, Professor of Pharmaceutical Nanoscience at University College London, has spent her career with this goal in mind. She creates nanoparticles to carry medicines to regions of the body that are notoriously hard to reach, such as the back of the eye and the brain. With clinical trials in the pipeline, she hopes to treat blindness with eyedrops, transform pain relief and tackle the opioid crisis. Ijeoma took an unconventional route into science. Growing up in the UK and in Nigeria, she tells Professor Jim Al-Khalili her remarkable life story, from being fostered by a white family in rural Kent, while her Nigerian parents finished their studies, to struggling to pay the bills through her PhD as a single mum with young children. So passionate is Ijeoma to spread her love of science, she’s even turned to stand-up comedy to help get her message across! Presented by JIm Al-Khalili Produced by Beth Eastwood

Darren Croft studies one of the ocean’s most charismatic and spectacular animals – the killer whale. Orca are probably best known for their predatory behaviour: ganging up to catch hapless seals or attack other whales. But for the last fifteen years, Darren Croft’s focus has been on a gentler aspect of killer whale existence: their family and reproductive lives . Killer whales live in multi-generational family groups. Each family is led by an old matriarch, often well into her 80s. The rest of the group are her daughters and sons, and grand-children. Especially intriguing to Darren is that female orca go through something like the menopause - an extremely rare phenomenon in the animal kingdom, only documented in just five species of toothed whales and of course in humans. Halting female reproduction in midlife is an evolutionary mystery, but it is one which Darren Croft argues can be explained by studying killer whales. Darren is Professor of Animal Behaviour at the University of Exeter. He talks to Jim Al-Kalili about his research on killer whales, his previous work revealing sophisticated social behaviour in fish, his life on the farm, and the downsides and upsides of being dyslexic. Presented by Jim Al-Khalili Produced by Andrew Luck-Baker

Bill Gates is one of the world's best-known billionaires - but after years at the corporate coalface building a software empire and a vast fortune, his priority now is giving that wealth away. And his ethos for doing it has been shaped by science. Famed for co-founding Microsoft, in recent decades Bill’s attention has turned to philanthropy via The Gates Foundation: one of the largest charities in the world. Since its inception in 2000, the organisation's helped tackle issues around health, education, inequality and climate change in some of the world’s poorest countries, with an undeniable impact: from contributing to the eradication of wild poliovirus in Africa, to helping halve global child mortality rates within 25 years. But, as Jim Al-Khalili discovers, for a man with lofty ambitions and an even loftier bank balance Bill has surprisingly humble tastes - from cheeseburgers and a bingeable spy series, to a good game of pickleball... Presented by Jim Al-Khalili Produced by Lucy Taylor

The final episode in this series of The Life Scientific is a journey through space and time, via black holes and wormholes, taking in Nobel-prize-winning research and Hollywood blockbusters! Kip Thorne is an Emeritus Professor of Theoretical Physics at Caltech, the California Institute of Technology, and someone who’s had a huge impact on our understanding of Einsteinian gravity. Over the course of his career Kip has broken new ground in the study of black holes, and been an integral parts of the team that recorded gravitational waves for the very first time – earning him a share in the 2017 Nobel Prize for Physics. He went on to promote physics in films: developing the original idea behind Christopher Nolan’s time-travel epic Interstellar and, since then, advising on scientific elements of various big-screen projects; including, most recently, the Oscar-winning Oppenheimer. In a special edition of The Life Scientific recorded in front of an audience of London’s Royal Institution, Professor Jim Al-Khalili talks to Kip about his life and career, from his Mormon upbringing in Utah to Hollywood collaborations – all through the lens of his unwavering passion for science. Presented by Jim Al-Khalili Produced by Lucy Taylor

It's summer - no really - and although the weather might have been mixed, the sporting line-up has been undeniably scorching - from the back-and-forth of Wimbledon, to the nail-biting Euros, to the current pageantry of the Summer Olympics. Next month the 2024 Paralympic Games get underway in Paris, involving the world’s very best para athletes; and Professor Vicky Tolfrey is at the forefront of the science that makes their sporting dreams a reality. Vicky is the Director of the Peter Harrison Centre for Disability Sport at Loughborough University, a hub for elite para-sport research. She’s worked with stars from the worlds of wheelchair athletics, basketball, rugby and tennis, amongst others – and in 2017, became the first European recipient of the International Paralympic Committee’s prestigious Scientific Award. She tells Professor Jim Al-Khalili about her work with elite para athletes, her experiences at major international sporting events, and her childhood dreams of becoming an Olympian herself. Presented by Jim Al-Khalili Produced by Lucy Taylor

The engineering industry, like many other STEM sectors, has a problem with diversity: one that Dawn Bonfield believes we can and must fix, if we're to get a handle on much more pressing planetary problems... Dawn is a materials engineer by background, who held roles at Citroën in France and British Aerospace in the UK. But, after having her third child, she made the difficult decision to leave the industry - as she thought at the time, for good. However a short spell working in post-natal services and childcare gave her new skills and a fresh perspective. This led to Dawn rehabilitating the struggling Women in Engineering Society and creating ‘International Women In Engineering Day’, which has just celebrated its 10th anniversary. Today, she’s Professor of Practice in Engineering for Sustainable Development at King’s College London, and the founder of Magnificent Women: a social enterprise celebrating the story of female engineers over the past century. She’s also President of the Commonwealth Engineers’ Council and has had her work supporting diversity and inclusion recognised with an MBE. Dawn talks to Professor Jim Al-Khalili about why 'inclusive engineering' should not be dismissed as tokenism, and why she's optimistic about the engineering sector's power to change the world. Presented by Jim Al-Khalili Produced by Lucy Taylor

In recent decades, we've taken huge steps forward in treating formerly fatal viruses: with pharmacological breakthroughs revolutionising treatment for conditions such as HIV, hepatitis and herpes. Raymond Schinazi has played a big role in that revolution. Ray was born in Egypt, where his mother’s brush with a potentially deadly illness during his childhood inspired a fascination with medicine. His childhood was scattered: after his family were forced to leave their homeland and travelled to Italy as refugees, Ray ended up on a scholarship to a British boarding school - and subsequently went on to study and flourish in the world of chemistry and biology. Today, Ray is the Director of the Laboratory of Biochemical Pharmacology at Emory University in Atlanta, where he also set up the renowned Center for AIDS Research. His work in the early days of HIV studies led to drugs that many with the virus still take today; while his contribution to developing a cure for Hepatitis C has saved millions of lives around the world. Speaking to Jim Al-Khalili, Ray reflects on his route to success - and explains why he's confident that more big breakthroughs are on the horizon. Presented by Jim Al-Khalili Produced by Lucy Taylor

From anorexia nervosa to binge-eating, eating disorders are potentially fatal conditions that are traditionally very difficult to diagnose and treat - not least because those affected often don’t recognise that there’s anything wrong. But also because of the diverse factors that can influence and encourage them. Janet Treasure is a Professor of Psychiatry at King’s College, London - where she's focused on understanding the drivers behind these disorders, to help develop more effective treatments. Her study of twins in the 1980s offered one of the earliest arguments of a genetic link to anorexia, rather than the purely psychological motivations accepted at the time; while her most recent work explores holistic ways to better treat these conditions. Speaking to Jim Al-Khalili, Janet explains the work that's revealed anorexia's roots in both body and mind - as well as how attitudes towards eating disorders are slowly changing. Presented by Jim Al-Khalili Produced by Lucy Taylor

Marfan syndrome is a genetic disorder that makes renders the body’s connective tissues incredibly fragile; this can weaken the heart, leading to potentially fatal aneurysms. What’s more, anyone with the condition has a 50/50 chance of passing it on to their children. Dr Anne Child is a clinical geneticist who’s dedicated her professional life to finding answers and solutions for people affected by Marfan’s. Born in Canada, she met her British future-husband while working in Montreal in a case she describes as "love at first sight" - and in the 1970s she relocated her life to the UK. There, an encounter with a Marfan patient she was unable to help set Anne on a career path for life. She subsequently established the team that discovered the gene responsible for Marfan's, and founded the Marfan Trust to drive further research. Since then, life expectancy for those with the condition has jumped from 32 years old, to over 70. Speaking to Professor Jim Al-Khalili, Anne shares how she and her team achieved this remarkable turnaround. Presented by Jim Al-Khalili Produced by Lucy Taylor

Many of us have heard of seismology, the study of earthquakes; but what about asteroseismology, focusing on vibrations in stars? Conny Aerts is a Professor of Astrophysics at the University of Leuven in Belgium - and a champion of this information-rich field of celestial research. Her work has broken new ground in helping to improve our understanding of stars and their structures. It hasn’t been an easy path: Conny describes herself as always being “something of an outlier” and she had to fight to follow her dream of working in astronomy. But that determination has paid off - today, Conny is involved in numerous interstellar studies collecting data from thousands of stars, and taking asteroseismology to a whole new level. In an epsiode recorded at the 2024 Cheltenham Science Festival, Professor Jim Al-Khalili talks to the pioneering Belgian astrophysicist about her lifelong passion for stars, supporting the next generation of scientists, and her determination to tread her own path. Presented by Jim Al-Khalili Produced by Lucy Taylor

What is the universe made of? Where does space dust come from? And how exactly might one go about putting on a one-man-show about Sir Isaac Newton? These are all questions that Mike Edmunds, Emeritus Professor of Astrophysics at Cardiff University and President of the Royal Astronomical Society (RAS), has tackled during his distinguished career. And although physics is his first love, Mike is fascinated by an array of scientific disciplines - with achievements ranging from interpreting the spread of chemical elements in the Universe, to decoding the world’s oldest-known astronomical artefact. Recording in front of an audience at the RAS in London, Professor Jim Al-Khalili talks to Mike about his life, work and inspirations. And who knows, Sir Isaac might even make an appearance… Produced by Lucy Taylor.

With 86 billion nerve cells joined together in a network of 100 trillion connections, the human brain is the most complex system in the known universe. Dr. Hannah Critchlow is an internationally acclaimed neuroscientist who has spent her career demystifying and explaining the brain to audiences around the world. Through her writing, broadcasting and lectures to audiences – whether in schools, festivals or online – she has become one of the public faces of neuroscience. She tells Professor Jim Al-Khalili that her desire to understand the brain began when she spent a year after school as a nursing assistant in a psychiatric hospital. The experience of working with young patients - many the same age as her - made her ask what it is within each individual brain which determines people’s very different life trajectories. In her books she’s explored the idea that much of our character and behaviour is hard-wired into us before we’re even born. And most recently she’s considered collective intelligence, asking how we can bring all our individual brains together and harness their power in one ‘super brain’. And we get to hear Jim’s own mind at work as Hannah attaches electrodes to his head and turns his brain waves into sound. Producer: Jeremy Grange

The reputation of the nuclear industry has had highs and lows during the career of Dr Fiona Rayment, the President of the Nuclear Institute. But nowadays the role of nuclear science and engineering has become more widely accepted in the quest for carbon net zero. Growing up in Hamilton, Scotland during a time of energy insecurity, Fiona was determined to understand more about why her school lacked the energy to heat up all of the classrooms or why there were power cuts causing her to have to do her homework by candlelight - and in nuclear she knew there was a possible solution. But it’s not just in clean energy that Fiona has spent her career, she’s also been involved in investigating how nuclear science can be used in treating cancer and space travel, as well as promoting gender diversity in the nuclear industry. Speaking to Professor Jim Al-Khalili, Fiona discusses how she’s always tried to keep close to the science during her career in order to keep her ‘spark’! Produced by Jonathan Blackwell

We are fascinated by dinosaurs. From blockbuster hits to bestselling video games, skeleton exhibitions to cuddly plushies, the creatures that once roamed the planet have fully captured our imagination, giving us a portal to a completely alternative Earth. And it’s likely new species are still out there, waiting to be found... Dr Nick Longrich is a palaeontologist and senior lecturer at the University of Bath, and he studies the dinosaur bones that many have overlooked. By rummaging through the back rooms of museums, he finds traces of never-before-described dinosaurs and goes on the hunt for other specimens to confirm or deny his hunch. Through these adventures, he’s discovered over a dozen new species, painting a more detailed picture of our prehistoric world. Nick is also fascinated by rare ‘one in a million year’ events – like asteroid collisions or mega volcanic eruptions – and investigates how the event that wiped out the dinosaurs created the world we live in today. From an Island off the coast of Alaska, Jim Al-Khalili discovers how Nicks early immersion in nature has trained his brain to spot the subtle differences in the world around us that many would overlook. Produced by Julia Ravey.

Dr Sheila Willis is a forensic scientist who was Director General of Forensic Science Ireland for many years. She has spent her life using science to help solve cases, working on crime scenes and then analysing material in the lab, and presenting scientific evidence in court. It’s a complicated business. Forensic science relies on powerful technology, such as DNA analysis, but it cannot be that alone - it’s also about human judgement, logical reasoning and asking the right questions. It is these fundamentals of forensic science that Sheila has fought for through her long career and what she fears may be becoming lost from the field now. We find out what happens when the two very different worlds of science and the law clash in the courtroom. How to walk the line of presenting scientific evidence where there is pressure to be definitive where often science cannot be - and what this part of the job has in common with food packaging. And what makes a good forensic scientist? We’ll turn the studio at London’s Broadcasting House into a live crime scene to see if host Professor Jim Al-Khalili would be any good as a forensic investigator… Produced by Gerry Holt

Professor Charles Godfray, Director of the the Oxford Martin School tells Jim Al-Kahlili about the intricate world of population dynamics, and how a healthy obsession with parasitic wasps might help us solve some of humanity's biggest problems, from the fight against Malaria to sustainably feeding a global community of 9 billion people.

Sir Jonathan Van-Tam, or ‘JVT’ as he's arguably better known, first came to widespread public attention in his role as Deputy Chief Medical Officer during the Covid-19 pandemic. But even before that, Jonathan had built an impressive career based on a long-held fascination with respiratory illness and infectious diseases. He’s worked across the public and private sectors, contributing significantly to improving our understanding of influenza and treatments to address such viruses. It’s hard to believe that back in his teens, JVT – the man who advised the nation on pandemic precautions and helped make the UK’s vaccine roll-out possible – nearly didn’t get the grades he needed to go to medical school. But early challenges aside, Jonathan went on to discover a love for both medical research and public speaking: making complex public health messages easier to digest – not least by using analogies relating to his beloved football. Speaking to Professor Jim Al-Khalili in the first episode of a new series of The Life Scientific, Jonathan discusses his life and career: from academic emphasis in childhood and imposter syndrome at medical school, to pandemic pressures around Covid-19 and big birthday celebrations. Produced by Lucy Taylor.

Humans have a long-held fascination with the idea of Artificial Intelligence (AI) as a dystopian threat: from Mary Shelley's Frankenstein, through to the Terminator movies. But somehow, we still often think of this technology as 'futuristic': whereas in fact, it's already woven into the fabric of our daily lives, from facial recognition software to translator apps. And if we get too caught up in the entertaining sci-fi narrative around AI and the potential threat from machines, there's a more pressing danger that we overlook real and present concerns - from deep fakes to electoral disinformation. That's why Michael Wooldridge is determined to demystify AI and explain how it can improve our lives, in a whole host of different ways. A Professor of Computer Science at the University of Oxford, and the Director of Foundational AI Research at the Alan Turing Institute, Mike believes the most common fears around this technology are "misplaced". In a special 300th edition of The Life Scientific, recorded in front of an audience at London's Royal Institution (RI), Mike tells Jim Al-Khalili how he will use this year's prestigious RI Christmas Lectures to lift the lid on modern AI technology and discuss how far it could go in future. Mike also reminiscences about the days when sending an email was a thrilling novelty, discusses why people love talking to him about the Terminator at parties, and is even challenged to think up a novel future use of AI by ChatGPT... Produced by Lucy Taylor.

How do you solve a problem like CO2? As the curtain closes on the world’s most important climate summit, we talk to a scientist who was at COP 28 and is working to solve our carbon dioxide problem. Professor Mercedes Maroto-Valer thinks saving the planet is still Mission Possible - but key to success is turning the climate-busting gas, CO2, into something useful. And as Director of the Research Centre for Carbon Solutions at Heriot-Watt University and the UK’s Decarbonisation Champion, she has lots of innovative ideas on how to do this. She also has a great climate-themed suggestion for what you should say when someone asks your age… Produced by Gerry Holt

The Life Scientific zooms in to explore the intricate atomic make-up of metal alloys, with complex crystalline arrangements that can literally make or break structures integral to our everyday lives. Professor Sir Harry Bhadeshia is Professor of Metallurgy at Queen Mary University of London and Emeritus Tata Steel Professor of Metallurgy at the University of Cambridge. He’s been described as a ‘steel innovator’ – developing multiple new alloys with a host of real-world applications, from rail tracks to military armour. Harry’s prolific work in the field has earned him widespread recognition and a Knighthood; but it's not always been an easy ride... From his childhood in Kenya and an enforced move to the UK as a teenager, to the years standing up to those seeking to discredit the new path he was forging in steel research - Jim Al-Khalili discovers that Harry's achievements have required significant determination, as well as hard work. Produced by Lucy Taylor.

“Big data” and “data science” are terms we hear more and more these days. The idea that we can use these vast amounts of information to understand and analyse phenomena, and find solutions to problems, is gaining prominence, both in business and academia. Cathie Sudlow, Professor of Neurology and Clinical Epidemiology at the University of Edinburgh, has been at the forefront of enabling health-related research using ever-increasing datasets. She tells presenter Jim Al-Khalili why this type of research matters, how the COVID-19 pandemic changed attitudes towards data in healthcare, and why the NHS gives the UK a big advantage when it comes to population-wide studies. Over the course of her career, Cathie has held a variety of roles at different organisations, and she is currently Chief Scientist and Deputy Director at Health Data Research UK. She believes that there is no room for prima donnas in science, and wants her field to be open and collaborative, to have the most impact on patients’ lives. Produced by Florian Bohr.

Professor Jim Al-Khalili meets one of Britain's greatest physicists, Sir Michael Berry. His work uncovers 'the arcane in the mundane', revealing the science that underpins phenomena in the world around us such as rainbows, and through his popular science lectures he joyfully explains the role of quantum mechanics in phones, computers and the technology that shapes the modern world. He is famed for the 'Berry phase' which is a key concept in quantum mechanics and one Sir Michael likes to explain through an analogy of holding a cat upside and dropping it, or parallel parking a car. Presenter: Jim Al-Khalili Studio Producer: Tom Bonnett Audio Editor: Gerry Holt

People around the world are living longer and, on the whole, having fewer children. What does this mean for future populations? Sarah Harper CBE, Professor in Gerontology at the University of Oxford, tells presenter Jim Al-Khalili how it could affect pensions, why it might mean we work for longer, and discusses the ways modern life is changing global attitudes to when we have children, and whether we have them at all. Fertility and ageing have been Sarah's life's work and she tells her story of giving up a career in the media to carry out in-depth research, and going on to study population change in the UK and China, setting up the Oxford Institute of Population Ageing and later becoming a Scientific Advisor to UK Government. Presenter: Jim Al-Khalili Producer: Tom Bonnett

Our primate cousins fascinate us, with their uncanny similarities to us. And studying other apes and monkeys also helps us figure out the evolutionary puzzle of what makes us uniquely human. Sarah Blaffer Hrdy’s work brings a female perspective to this puzzle, correcting sexist stereotypes like the aggressive, philandering male and the coy, passive female. Sarah is Professor Emerita of Anthropology at the University of California, Davis, and studies female primate behaviour to create a richer picture of our evolutionary history, as well as what it means to be a woman or a parent today. Her overarching aim is to understand the human condition, a goal she initially planned to pursue by writing novels. Instead, she found her way into science: her groundbreaking study of infanticide among langur monkeys in northern India overturned assumptions about these monkeys’ murderous motivations. Later in her career, she looked into reproductive and parenting strategies across species. We humans are primed by evolution, she believes, to need a lot of support raising our children. And that’s a concern she found reflected in her own life, juggling family commitments with her career ambitions as a field researcher, teacher, and science writer. Produced by Cathy Edwards.

The Life Scientific returns with a special episode from the USA; Princeton, New Jersey, to be precise. Here, the Institute for Advanced Study has hosted some of the greatest scientific minds of our time - Einstein was one of its first Professors, J. Robert Oppenheimer its longest-serving director - and today's guest counts among them. Edward Witten is Professor Emeritus at the Institute and the physicist behind M-Theory, a leading contender for what is commonly referred to as ‘the theory of everything’, uniting quantum mechanics and Einstein’s theory of gravity. He talks to Jim Al-Khalili about a career that’s spanned some of the most exciting periods in modern theoretical physics - and about one particular problem that's both obsessed and eluded him since his days as a student… Produced by Lucy Taylor.

With the world's biodiversity being lost at an alarming rate, Alexandre Antonelli, Director of Science at the Royal Botanic Gardens, Kew, has made it his life's mission to protect it. He is a bio-geographer revealing how changes to the Earth's landscape, such as the formation of mountain ranges and rainforests, leads to the evolution of new species and causes plants, fungi and animals to move around the world. His work is a masterclass in joined-up thinking, bringing together different fields of research by starting conversations between scientists who would rarely talk to one another. Together, they paint a more holistic picture of how our planet's biodiversity has developed in the hope of informing how we can protect it in the future. Alex tells presenter Jim Al-Khalili about a life spent in the wild, beginning with his earliest memories of growing up in Brazil cataloguing life in the Atlantic Rainforest. That passion is still with him today. We've only scratched the surface of understanding what lives here on Earth, he says, more than 4,000 new species are found every year. Alex is passionate that we need to speed up the rate at which we document the richness of life, arguing if we don't identify what there is we can't protect it. Presented by Jim Al-Khalili Produced by Tom Bonnett

Astronomer Paul Murdin believes a good imagination is vital for scientists, since they're so often dealing with subjects outside the visible realm. Indeed, over a long and successful career his imagination has taken him on a journey through space, discovering various new and unusual celestial occurrences - notably the first successful identification of a black hole, Cygnus X-1. Paul tells Jim Al-Khalili how he spent much of his career at the Royal Greenwich Observatory, working with astronomers around the world on some of the most advanced telescopes ever built. He headed up the Astronomy section of the UK’s Particle Physics and Astronomy Research Council, was Director of Science for the British National Space Centre and even has an asteroid named after him. This list of achievements is testament to the fact that Paul has never let his disability hold him back; a leg brace and walking sticks have been part of his life since contracting polio in childhood. But he maintains that as long as you have curiosity and a vibrant imagination, nothing should stand in your way. Produced by Lucy Taylor.

Some of the most complex medicines available today are made from living cells or organisms - these treatments are called biopharmaceuticals and in this episode of The Life Scientific Dr Bahija Jallal, CEO of Immunocore, shares her story of leaving her home in Casablanca, Morocco to become a world leader in developing biopharmaceutical cancer treatments. She tells Professor Jim Al-Khalili that she has always found herself ahead of the curve. When she began in oncology, the study of cancer, the common treatment was chemotherapy which attacked all the cells in an affected area. Her first studies into cancer treatments were looking at how certain therapies could focus in on the cancerous cells and move away from what she describes as the 'sledgehammer' of traditional chemotherapy. It was an early step in what became known as targeted cancer therapies, and it set Bahjia on course for a career dedicated to developing innovative drugs to improve cancer patients' lives. Through a deep understanding of the science and a resolute commitment to putting treatments in the hands of people who need them, she has produced astonishing results. Bahija has brought drugs to market faster than many believed was possible, and she has managed it by being an inspirational leader and encouraging her teams to think differently. How has she done it? Part of the secret, she says, is diversity of thought. Presented by Professor Jim Al-Khalili Produced by Tom Bonnett

How much more of our world could we understand, if we could take stock of it, one atom at a time? If we could see the structure of individual molecules, understand the complex ways they interact with one another, and witness first-hand how they move? These are questions for electron microscopy, and more broadly, for Materials Science. Materials scientists peer into the atomic structure of the stuff that makes up our world, to figure out the relationships between the structure of a material, and its resulting properties. They study how to change materials at the molecular level, to improve the way they function in the real world. It’s an interdisciplinary field that spans the physics and chemistry of matter, engineering, and industrial manufacturing. It’s led to an enormous number of advances, from nanotechnology to aerospace engineering, pioneering medical innovations to quantum computing. And SOME of these advances are thanks to the work of Professor Colin Humphreys. As Professor of Materials Science at Queen Mary University of London, and Distinguished Research Fellow at the Department of Materials Science at the University of Cambridge, Colin works on materials with fascinating properties that would be hard to understand without delving into their atomic structure: semiconductors, superconductors, nanoparticles, and ultra-high temperature aerospace materials. He’s also a committed student of Christianity and applies his scientific mind to questions of biblical scholarship: calculating the exact date of the crucifixion for example, or naturalistic explanations for miracles. Produced by Emily Knight

Reproductive science has come a long way in recent years, but there's still plenty we don't understand - particularly around male fertility. The reliability and availability of data in this field has become more of a concern in light of a study published this year, suggesting that sperm counts worldwide have dropped 62% in the past 50 years. As yet there is no clear answer as to why that is. Professor Chris Barratt is one of the scientists working to change that. He's the Head of Reproductive Medicine at Ninewells Hospital and the University of Dundee Medical School, and has dedicated his career to better understanding male infertility; driving breakthroughs in how to study sperm dysfunctions – and most recently spearheading advances in developing a male contraceptive pill. Chris talks to Professor Jim Al-Khalili about his academic struggles as a youngster, the lecture that changed his life, his research into 'head-banging sperm' and why he believes a new male contraceptive could be a game-changer. Produced by Lucy Taylor.

We’re used to hearing the stories of scientists who study the world as it is now but what about the study of the past - what can this tell us about our future? Gideon Henderson’s research focuses on trying to understand climate change by looking at what was happening on our planet thousands of years ago. His work has taken him all around the world - to the deepest oceans and the darkest caves - where he collects samples containing radioactive isotopes which he uses as “clocks” to date past ice ages and other major climate events. As a geochemist and Professor of Earth Sciences at the University of Oxford, his work deals with the biggest questions, like our impact on the carbon cycle and climate, the health of our oceans, and finding new ways to remove greenhouse gases from the atmosphere. But in his role as Chief Scientific Adviser at the Department of Environment, Food and Rural Affairs, he also very much works on the present, at the intersection between the worlds of research and policy. He has overseen the decision to allow gene-edited food to be developed commercially in England and a UK surveillance programme to spot the Covid-19 virus in our waste-water. Produced by Gerry Holt.

If you’ve ever seen the ocean during a storm, you’ll understand the extraordinary power contained in waves. On an island nation like Britain, that power could well be harnessed to produce clean energy; so why have we barely begun to tap this bountiful resource? Deborah Greaves is trying to change that. As Professor of Ocean Engineering at the University of Plymouth, she combines physical wave tanks with sophisticated computer modelling to test how well wave power devices respond to stormy seas. And as Director of the Supergen ORE Hub, she brings together researchers in offshore renewable energy to imagine a future of widespread, eco-friendly ocean power. Deborah tells Jim Al-Khalili about growing up in Plymouth fascinated by the sea, and about breaking from the norm in her arts-focused family, to pursue a degree in engineering. But she spent years as a civil engineer building tunnels for the London Underground - and going on expeditions to the Arctic with her husband - before undertaking a PhD at Oxford University, exploring what happens when waves crash into solid structures. She eventually returned to Plymouth and set up the institute’s Coastal, Ocean and Sediment Transport (COAST) Laboratory - a building with a swimming-pool-sized wave tank for testing new technologies. As Jim hears, these wave devices have an extraordinary diversity of uses - and could help to propel Britain into a greener energy future. Produced by Phil Sansom.

Imagine a world in which your laptop or mobile device accesses the internet, not via radio waves – or WiFi – as it does today but by using light instead: LiFi. Well, that world may not be as far away as you might think. In fact, the technology is already here; and it’s thanks in large part to the engineering ingenuity of Harald Haas, Distinguished Professor of Mobile Communications and Director of the Li-Fi Research and Development Centre at the University of Strathclyde. He tells Jim Al-Khalili about the two decades he has spent researching optical wireless communications, building up to his LiFi breakthrough in 2011, where he made waves in the scientific community and beyond by showing how a simple desk lamp could be used to stream a video. Harald’s research could well have a very real impact on people’s lives, reinventing the way we connect online – but, as Jim hears, his early life was dogged by a very real fear he may have the same devastating disease that took his mother's life at an early age; an experience that shaped his early years and which has driven him to succeed in his own life and career. Produced by Gerry Holt.

Our genes can tell us so much about us, from why we look the way we look, think the way we think, even what kind of diseases we might be likely to suffer from. But our genes aren't the whole story. There are other, complex and intriguing systems within every cell in our bodies which control which of our tens-of-thousands of genes are switched on, or off, in different parts of the body, and under different circumstances. Welcome to the fascinating world of 'epigenetics', which our guest, the molecular geneticist Anne Ferguson-Smith, describes as 'genetics with knobs on'. Anne, now Arthur Balfour Professor of Genetics and Pro-Vice Chancellor for Research at the University of Cambridge, tells Jim about her life and work. She's spent her professional life at the cutting edge: from a degree in a brand new field of Molecular Biology, to post-grad working on brand new genetic structures, through to a lifetime of discoveries and breakthroughs which have changed our understanding of the genome. Yet she wasn't always destined to be a scientist. She says she was a 'bad student' for a lot of her early life, and believes that embracing failure is an essential part of being a working scientist. Produced by Emily Knight

Anne-Marie Imafidon passed her computing A-Level at the age of 11 and by 16, was accepted to the University of Oxford to study Maths and Computer Science. She's used to the 'child prodigy' label that's followed her throughout her career, but that doesn't mean she's had an easy ride. It was a combination of personal experience and the discovery that the number of women working in the STEM sectors - Science, Technology, Engineering and Mathematics - was in free-fall that inspired Anne-Marie to found Stemettes: a not-for-profit social enterprise introducing girls to STEM ideas and careers in fun and accessible ways. It's now in its tenth year and still growing, while Anne-Marie has received an MBE, enjoyed a successful stint as the numbers guru on the TV series Countdown, and is the current President of the British Science Association. In conversation in front of an audience at the 2023 Cheltenham Science Festival, she tells Jim Al-Khalili about her quest for equality and diversity across the scientific community - and explains why she thinks everyone has the potential to be a 'child prodigy', given the right opportunity... Produced by Lucy Taylor.

From landslides and wildfires to floods and tornadoes, Bruce Malamud has spent his career travelling the world and studying natural hazards. Today, he is Wilson Chair of Hazard and Risk and Executive Director of the Institute of Hazard, Risk and Resilience at Durham University - but as he tells Jim Al-Khalili, a lifelong passion for discovery has taken Bruce from volunteering with the Peace Corps in West Africa and a Fulbright Fellowship in Argentina, to fieldwork in India; not only studying hazards themselves, but also the people they affect - and building up the character and resilience to overcome personal tragedy along the way... Over the years, his work in the field has opened up new ways of understanding such events: from statistical modelling to show how groups of hazards occur, to examining the cascading relationships between multiple hazards. And today, his focus is on projects that can bring tangible benefits to people at serious risk from environmental hazards - finding innovative ways to help them to better manage that threat. Produced by Lucy Taylor.

How often do you think about chemistry? The chances are, not often - but it is vital to every part of our lives, from the air we breathe, to the processes that take place inside our bodies and the materials we use. Gillian Reid is Professor of Inorganic Chemistry at the University of Southampton and she is on a mission to make sure we all know what chemistry can do for us - and how it is tackling some of society’s biggest challenges. Hers is a story of firsts - the first in her immediate family to go to university and the first female member of staff in the chemistry department at the University of Southampton, where she later became the first female Professor and Head of Department. She is also the reigning President of the Royal Society of Chemistry - one of very few women to have taken on that mantle in its 182-year history. She tells Jim Al-Khalili about life as a female professor in a male-dominated space - and what needs to change to unlock chemistry for everyone. He also hears how Gillian is discovering new compounds that could revolutionise tech and medicine. We’ll also hear why she thinks research isn’t actually that hard and how chemistry can be a little bit like Lego… Do join us. Produced by Gerry Holt

The world around us is three-dimensional. Yet, there are materials that can be regarded as two-dimensional. They are only one layer of atoms thick and have remarkable properties that are different from their three-dimensional counterparts. Sir Andre Geim created the first-ever man-made 2D material, by isolating graphene, and is one of the pioneers in this line of research. Even beyond his Nobel Prize-winning work on graphene, he has explored new ideas in many different areas of physics throughout his career. Andre tells Jim about his time growing up in the Soviet Union, being rejected from university based on his German ethnicity, his move to Western Europe, and levitating frogs. Produced by Florian Bohr.

There are almost a million people in the UK living with dementia, and Alzheimer’s is the most common form. But the disease actually starts long before any noticeable symptoms appear, and over the past decade, studies have shown that it is much more complex than previously thought. Julie Williams has been at the forefront of this effort, uncovering the genes that make us susceptible, and has transformed our understanding of this devastating disease. She has brought researchers together to create bigger datasets and more powerful studies. Her current work with scientists from other fields, like immunology and computational biology, is looking at the mechanisms underlying Alzheimer’s disease. Julie tells Jim about her early interest in science, her time as Chief Scientific Advisor to the Welsh government, and her belief in ‘team science’ – collaborating and sharing research findings across international borders and disciplines. Produced by Florian Bohr

Since 1900, our best estimates suggest that earthquakes have caused around 2.3 million deaths worldwide; we saw the devastating effects of one just recently, in Turkey and Syria. And as scientists have been at pains to point out over the years, there is no reliable short-term warning system. But thanks to the work of people like James Jackson, an Emeritus Professor of Active Tectonics at the University of Cambridge, we are finding new ways of understanding and withstanding seismic activity. James tells Jim Al-Khalili about his career travelling the world in search of quake sites and fault lines – trialling new technology and techniques in a quest to understand the processes that shake and shape our planet’s surface; and working out how this information can help vulnerable cities become more resilient to quakes in future... Produced by Lucy Taylor.

Marie Johnston is a pioneer in the field of health psychology: the discipline that seeks to understand how psychological, behavioural and cultural factors contribute to our physical and mental health. Today an emeritus professor in health psychology at the University of Aberdeen, her career exploring behavioural interventions has shown that even the subtlest shift in how we act can dramatically change our behaviour and lives for the better – whether that’s in an individual recovering from a stroke, or a nation coming to terms with pandemic safety measures, while her work setting up the UK’s first stress management clinic showed why mental health support needed to come out of psychiatric hospitals and into general practice. Marie tells Professor Jim Al-Khalili why she believes the right interventions can be a powerful tool in improving public health, and indeed our healthcare system; and how an accident at the hairdresser's many years ago helped her become more approachable... Produced by Lucy Taylor.

Professor Dame Julia King, Baroness Brown of Cambridge, is an engineer whose fascination with metals, and skill for handling both research projects and people, has taken her from academia to industry to the House of Lords. She tells Jim Al-Khalili how the dressmaking skills she learnt from her mother as a child helped her to understand the composite structures used in wind turbines later in life. And how she designed metal alloys that are resistant to both large and small cracks. As the author of the UK government's Review of Low Carbon Cars in 2007, Julia set out a route to decarbonising a major segment of the transport sector within 25 years, making an important contribution to the UK's plans to try and achieve Net Zero. But achieving Net Zero is not enough. With demand for electricity set to double or treble by 2050, there’s an urgent need to radically reform our national infrastructure and guarantee supply. Julia became a cross-bench member of the House of Lords in 2015. She’s now chair of its Science and Technology Committee, holding the government to account on its promise to make the UK a science superpower.

Jim Al-Khalili talks T cells, our immune response and Long Covid with Prof Danny Altmann. Danny Altmann joined ‘team T cells’ in his twenties and has been studying how these killer operate ever since. How do they know which cells to search and destroy? The T cell wing of our immune response is highly targeted and incredibly clever, on a par with the most sophisticated military intelligence operation and in recent decades there have been dramatic advances in our understanding of how it all works . Danny tells Jim how he came to study our immune response to all sorts of pathogens, from anthrax to zika, why he spends every morning from 5 to 6am in the bath reading 19th century classics and why he’s determined to try and understand Long Covid. Producer: Anna Buckley

Jim Al-Khalili talks to astrophysicist Haley Gomez about defying expectations and becoming a world expert on cosmic dust. For centuries, cosmic dust was a major source of irritation to optical astronomers because, like smog, it stopped them from seeing the stars. Now studies of these tiny particles are challenging some deeply held assumptions about the physics of the universe. Haley’s research has changed the textbook explanation of how cosmic dust is formed and helped to open our eyes to just how many galaxies there are in the universe. In 2018 she was awarded an MBE for services to physics and inspiring the next generation of physicists and astronomers from less privileged communities. A cause which is very close to her heart. Produced by Anna Buckley and recorded in the Pier Head Building in Cardiff as part of the Cardiff Science Festival.

How a once-derided approach to statistics paved the way for AI. Jim Al-Khalili talks to pioneering mathematician, Professor Sir Adrian Smith. Accused early in his career of ‘trying to destroy the processes of science’, Adrian went on to prove that a branch of statistics (invented by the Reverend Thomas Bayes in 1764) could be used by computers to analyse vast sets of data and to learn from that data. His mathematical proofs showed that Bayesian statistics could be applied to all sorts of real world problems: from improving survival rates for kidney transplant patients to tracking Russian submarines. And paved the way for a dramatic explosion in machine learning and AI. Working as a civil servant (2008-2012) he helped to protect the science budget in 2010, transforming the landscape for scientific research in the UK. And he has been vocal, over many years, about the urgent need to make sure children in the UK leave school more mathematically able. In 2020, he became President of the UK's prestigious national science academy, The Royal Society. Producer: Anna Buckley

Clifford Johnson's career to date has spanned some seemingly very different industries - from exploring quantum mechanics around string theory and black holes, to consulting on some of Hollywood's biggest movies; but it makes sense once you understand his ambition of making science accessible to all. A Professor in the Department of Physics and Astronomy at the University of Southern California in Los Angeles, Clifford's worked in the United States for decades – but was born in the UK, then spent his formative years on the Caribbean island of Montserrat, before moving back to England to study. Here, he fell in love with quantum mechanics - before moving to the US, where he's broken new ground in finding ways to talk about quantum gravity and black holes. Clifford's other big passion is getting as many people as possible engaged with science, making it more exciting, entertaining and most importantly diverse - and it's this attitude that's led to regular work as a science consultant on various TV shows and films; and even a recent cameo in a major movie... Produced by Lucy Taylor.

A fur-stripped mouse carcase might not sound like the cosiest of homes – but that’s where the burying beetle makes its nest; and where Rebecca Kilner has focused much of her research. A Professor of Evolutionary Biology at the University of Cambridge, Rebecca’s work – initially with cuckoos, then more recently with the beetles – has shed invaluable light on the relationship between social behaviours and evolution. She tells Jim Al-Khalili how the beetles’ helpfully swift generational churn and mouse-based parenting has allowed her team to study evolution in action, demonstrating for the first time what was previously just evolutionary theory. Producer: Lucy Taylor

Motor Neuron Disease (MND) is a degenerative disease that relentlessly attacks the human nervous system, deteriorating muscle function to the point where patients can no longer move, talk, eat, or even breathe. To date there’s no cure, and until fairly recently there were only minimal treatments to ease the symptoms. Pam Shaw has dedicated her career to changing that. A Professor of Neurology at Sheffield University and Founding Director of the Sheffield Institute for Translational Neuroscience, she recently led clinical trials into a drug that delivered unprecedented results: showing that it could slow the progression of MND in certain patients, and even improve symptoms for some. It’s just one small step – but with a new tranche of research funding and a national institute to study the disease on the cards, Pamela believes this could be the start of real progress in understanding and treating Motor Neuron Disease. Producer: Lucy Taylor

Professor Chris Elliott is something of a ‘food detective’. A Professor of Food Safety and Microbiology at Queen's University Belfast and a founding director of its Institute for Global Food Security (IGFS), his work is all about developing scientific solutions to protect us from contaminated food, be it accidental or criminal. Following the 2013 horse meat scandal – when prepared foods purporting to be made from beef were found to contain undeclared horse-meat – Chris conducted the independent review of the UK food system that brought to light the growing threat of food crime. Since then, his name’s become synonymous with solving cases of food fraud; today he receives regular tip-offs on everything from oregano scams to dodgy potatoes. But as Chris tells Jim Al-Khalili, his team at the IGFS are pioneering new techniques to read the molecular fingerprint of foodstuffs, with technology that they hope will stop the fraudsters in their tracks… Producer: Lucy Taylor

What use to science is a pesky organism that feeds on rotting fruit? Professor Bambos Kyriacou has spent fifty years observing the behaviour of fruit flies. He keeps them in the lab and in his garden in their thousands, has recorded fruit fly courtship songs using a microphone loved by Jonny Carson (because it made his voice sound deeper) and invented equipment to keep track of their sleeping patterns. He tells Jim Al-Khalili how fruit flies sparked his interest in genetics and how experiments with insomniac fruit flies opened our eyes to the fundamental importance of body clocks.

Leon Barron monitors pollution in our rivers, keeping tabs on chemicals that could be harmful to the environment and to our health. He’s also gathered intelligence on the behaviour of millions of Londoners by studying the water we flush down the loo. His analysis of sewage revealed, for example, just how much cocaine is consumed in London every day. And he’s helped the Metropolitan Police to crack crimes in other ways too, inventing new chemistry tools that can be used by forensic scientists to uncover clues. At school he had no idea he wanted to be an analytical chemist but a short work experience placement at the fertiliser factory convinced him that this kind of detective work was fun. Producer: Anna Buckley

Tim Lamont is a young scientist making waves. Arriving on the Great Barrier Reef after a mass bleaching event, Tim saw his research plans disappear and was personally devastated by the destruction. But from that event he discovered a novel way to restore coral reefs. Playing the sounds of a healthy coral reef entices fish in to recolonise the wrecked reefs. Tim's emotional journey forced him to realise that environmental scientists can no longer just observe. They need to find new prisms with which to view the world and to intervene to save or protect the natural environment.

Daphne Koller was a precociously clever child. She completed her first degree – a double major in mathematics and computer science – when she was just 17 and went on to become a distinguished Professor at Stanford University in California. But before long she’d given up this comfortable academic position to create the biggest online education platform in the world. In 2018, she founded the drug discovery company Insitro hoping to create a space where data scientists and molecular biologists could work together as equals. Daphne tells Jim Al-Khalili how a single question from her supervisor nudged her to use her considerable mathematical ability to do something useful and why she believes the time is right for artificial intelligence to discover new medicines. Producer: Anna Buckley

Emily Holmes is a distinguished Professor of Clinical Psychology at Uppsala University and a neuroscientist who struggled to learn to read and write as a child. She tells Jim Al-Khalili about her work as a mental health scientist and her life-long love of art and explains why the images we see in our mind’s eye have more of an impact on our emotions than their verbal counterpart. And describes how this fundamental insight led her to develop a simple and cost-effective treatment for the fleeting flashbacks that haunt people with post traumatic stress disorder: briefly recalling the traumatic event and playing the computer game Tetris. Producer: Anna Buckley

Think Sahara Desert, think intense heat and drought. We see the Sahara as an unrelenting, frazzling, white place. But geo-archaeologist Dr Judith Bunbury says in the not so distant past, the region looked more like a safari park. In the more recent New Kingdom of Ancient Egypt, from around 3.5 thousand years ago (the time of some of Egypt’s most famous kings like Ahmose I, Thutmose III, Akhenaten, Tutankhamun and queens like Hatshepsut) evidence from core samples shows evidence of rainfall, huge lakes, springs, trees, birds, hares and even gazelle, very different from today. By combining geology with archaeology, Dr Bunbury, from the department of Earth Sciences at the University of Cambridge and Senior Tutor at St Edmund’s College, tells Jim Al-Khalili that evidence of how people adapted to their ever-changing landscape is buried in the mud, dust and sedimentary samples beneath these ancient sites, waiting to be discovered. With an augur (like a large apple corer), Judith and her team take core samples (every ten metre sample in Egypt reveals approximately 10,000 years of the past) and then read the historical story backwards. A model of the topography, the environment, the climate and the adapting human settlements can then be built up to enrich the historical record. The core samples contain chipped stones which can be linked directly to the famous monuments and statues in the Valley of the Kings. There are splinters of amethyst from precious stone workshops, tell-tale rubbish dumped in surrounding water as well as pottery fragments which can be reliably time-stamped to the fashion-conscious consumers in the reign of individual Pharaohs. The geo-archaeological research by Judith and her team, has helped to demonstrate that the building of the temples at Karnak near Luxor, added to by each of the Pharaohs, was completely dependent on the mighty Nile, a river which, over millennia, has wriggled and writhed, creating new land on one bank as it consumes land on another. Buildings and monuments were adapted and extended as the river constantly changed course. And Judith hopes the detailed, long-range climate records and models we already have, can be enriched with this more detailed history of people, their settlements and their activities within a changing landscape and this will contribute to our ability to tackle climate change. Producer: Fiona Hill

Nobel Prize-winning chemist Frances Arnold left home at 15 and went to school ‘only when she felt like it’. She disagreed with her parents about the Vietnam War and drove big yellow taxis in Pittsburgh to pay the rent. Decades later, after several changes of direction (from aerospace engineer to biotech pioneer), she invented a radical new approach to engineering enzymes. Rather than try to design industrial enzymes from scratch (which she considered to be an impossible task), Frances decided to let Nature do the work. ‘I breed enzymes like other people breed cats and dogs’ she says. While some colleagues accused her of intellectual laziness, industry jumped on her ideas and used them in the manufacture of everything from laundry detergents to pharmaceuticals. She talks to Jim Al-Khalili about her journey from taxi driver to Nobel Prize, personal tragedy in midlife and why advising the White House is much harder than doing scientific research. Producer: Anna Buckley

Who could forget the beginning of 2020, when a ‘mysterious viral pneumonia’ emerged in the Chinese city of Wuhan. Soon, other countries were affected and deaths around the world began to climb. Perhaps most alarmingly of all, there were no proven treatments to help prevent those deaths. As the World Health Organisation declared the Covid-19 outbreak a pandemic, and the UK and the rest of the world braced itself for what was to come, doctor and drug-trial designer Martin Landray had his mind on a solution, devising the protocol, or blueprint, for the world’s largest drug trial for Covid-19. As Professor of Medicine and Epidemiology at Oxford University, Martin was perfectly positioned to jump, delivering what became known as the RECOVERY Trial. The trial was tasked to deliver clarity amid the predicted chaos of the pandemic and galvanised every acute NHS hospital in the UK. Within its first one hundred days, it had yielded three major discoveries and it has transformed Covid-19 treatment worldwide, already saving over a million lives. Sir Martin Landray was recently knighted for this work and RECOVERY’s legacy lives on, not just for Covid. Martin plans to revolutionise drug trials for other diseases too. PRODUCER: Beth Eastwood

Vlatko Vedral describes himself as a quantum information practitioner, who believes that our universe is made up of quantum bits of information. It is information, he tells Professor Jim Al-Khalili, rather than energy or matter, the traditional building blocks of classical Newtonian physics, that can help us to understand the nature of reality. Vlatko is Professor of Quantum Information Science at the University of Oxford and the Principal Investigator at the Centre for Quantum Technologies at the National University of Singapore and he talks to Jim in front of an audience at the Cheltenham Science Festival. At high school in Belgrade, in what was then Yugoslavia, young Vlatko was bowled over by the idea that you could take the micro-laws of quantum mechanics, and apply them to the complex systems of the macro world. This drive to see the big picture, was fuelled when, as an undergraduate at Imperial College, London, he saw three words – “Information is physical” – the title of a paper by the IBM physicist, Rolf Landauer. It was a light-bulb moment for Vlatko, who realised that the kind of information processing that the universe is capable of, depends on the underlying laws of physics. This revelation led to Vlatko’s incarnation as a self-confessed “physics fundamentalist” who unashamedly crowns physics the Queen and other disciplines, her servants. It is physics alone, he tells Jim, which can answer the fundamental questions of the universe and discover the ultimate reality. His PhD in 1997 at Imperial College, London, applied quantum mechanics, including super-positioning and entanglement (which Einstein famously called “spooky action at a distance”), to Claude Shannon’s Information theory, making Vlatko one of the pioneers in the field of quantum information. As new quantum computers come on stream, he tells Jim, quantum information practitioners, like him, will have the capacity to simulate complex systems in the macroscopic domain. Producer: Fiona Hill

Ant-loving professor, Adam Hart, shares his passion for leaf cutting ants with Jim Al Khalili. Why do they put leaves in piles for other ants to pick up? Talking at the Hay Festival, Adam describes the experiments he designed to test the intelligence of the hive mind. When does a waggle dance become a tremble dance? And how do the honey bees know when this moment should be? We like the phrase ‘as busy as a bee’. In fact, bees spend a lot of time doing nothing at all, a sensible strategy from the point of view of natural selection. And where does Adam stand on insect burgers? Producer: Anna Buckley

When a person with severe anorexia nervosa refuses food, the very treatment they need to survive, is that refusal carefully considered and rational, as it can appear to those around them? Or is it really the illness that’s causing them to say ‘no’? This is one of the thorny ethical dilemmas that Jacinta Tan has wrestled with over the course of her career. She is deeply curious about the mind, and has spent hundreds of hours sitting with people with anorexia nervosa, not persuading them to eat, rather listening to them talk about what’s going on in their minds and how the illness influences their decisions. These rich internal worlds, that she has revealed, shape her work as a Child and Adolescent Psychiatrist at Oxford Health NHS Foundation Trust, where she treats people with eating disorders. The views of those with the conditon and their families have been central to the recent government reviews of the Eating Disorder Services that she led in Scotland and Wales. These conditions can be hugely challenging to treat. Jacinta Tan tells Jim Al-Khalili how it's the art of medicine, as much as the science, that helps people recover. PRODUCER: Beth Eastwood

Pete Smith is very down to earth. Not least because he’s interested in soil and the vital role it plays in helping us to feed the world, mitigate climate change and maintain a rich diversity of species on planet earth. He was born in a pub and failed the 11+ exam (designed to identify bright children just like him) but he became a distinguished professor nonetheless. Tackling climate change in isolation is a mistake, he says. We need to consider all the challenges facing humanity and identify strategies that deliver benefits on all fronts: food security, bio-diversity and human development goals. He tells Jim Al-Khalili about his life and work and the urgent need for our degraded peat bogs to be restored. Peat bogs that have been drained (for grazing or to plant trees) add to our carbon emissions. Healthy peat bogs, however, are carbon sinks. Producer: Anna Buckley

Chi Onwurah tells Jim Al-Khalili why she wanted to become a telecoms engineer and why engineering is a caring profession. As a black, working class woman from a council estate in Newcastle, she was in a minority of one studying engineering at university in London and encountered terrible racism and sexism. She went on to build digital networks all over the world, the networks that make today's instant multimedia communications possible. And Chi built the first mobile phone network in Nigeria, when the country was without a reliable electricity supply. Today she is Shadow Minister for Science, Research and Innovation. When Chi decided to go into politics, her engineering colleagues were not impressed. Why would anyone leave their noble profession to enter a chaotic, disreputable and dubiously useful non-profession, they asked. But, Chi believes, parliament desperately needs more scientists and engineers, not only to help us solve science-based problems but also to create technical jobs and build a strong economy. Producer: Anna Buckley

Ailie's first engineering challenge was working out how to get the solids to settle in a mixture of raw sewage at a treatment plant in Stuttgart. Years later, she worked on the Boston Big Dig and realised that large-scale construction projects were her thing. A seven lane highway was rerouted underground and a bridge built using blocks of expanded polystyrene to support the on off ramps. When Bostonians complained about the vibrations from all the drilling, their beds were put on springs. She returned home to the UK to run the transformation of St Pancras Station in London, creating an international terminal for Eurostar while preserving the historic features of the original building. Preventing 690 cast iron pillars that supported the platform from 'breaking like carrots' was a particular challenge, as was keeping the Midlands mainline running. Next she took on Crossrail and was in charge of the challenging central London section, with a budget of £7.5 billion. Aware that diverse teams tend to be more successful she recruited a top team of engineers in which 30% were women. Ailie talks to Jim about how she rose from doing experiments with sewage to become one of the most successful engineers in the UK. Producer: Anna Buckley

Ben Garrod is an obsessive bone collector and wild animal behaviourist. He was destined for a career in medicine but a chance encounter with primatologist Jane Goodall reignited his life long passion for conservation and led to him managing and researching the habituation of wild chimpanzees in Africa. It was a chance to record primate behaviour that had never been seen before and examine how resilient chimps can be to anthropogenic change. Further extraordinary insights into the speed of evolution through the clues in the bones of island monkeys was to follow. He is a professor of Evolutionary Biology and Science Engagement at the University of East Anglia and the presenter of several landmark TV series on animal bones and extinction, such as The Secrets of Bones and most recently, Attenborough and the Mammoth Graveyard. Ben shares his passion for the contrasting insights into conservation and extinction, the value they play, and describes his own extraordinary journey from exploring animal remains washed up on Norfolk beaches to years spend tracking chimps in Uganda to eminent science communicator and public figure. Producer Adrian Washbourne

Steve Brusatte analyses the pace of evolutionary change and tries to answer big questions. Why did the dinosaurs die out and the mammals survive? How did dinosaurs evolve into birds? If you met a Velociraptor today you’d probably mistake it for a large flightless bird, says Steve. His intense interest in T. rex, Triceratops and all the other dinosaur species developed when he was a teenager and continues to this day. More recently, however, he’s focussed on the long history of mammals. For hundreds of millions of years, our mammalian ancestors remained small. Most were mouse-sized. None were bigger than a badger. Steve studies how, when an asteroid collided with earth 66 million years ago, the mammals got lucky. All the big dinosaurs were wiped out and only the small ones with wings survived. (Birds are dinosaurs, by the way). Within half a million years, mammals of all shapes and sizes had taken over on planet earth. Sabre-toothed flesh eaters, cow-sized plant guzzlers and a host of other warm blooded placental animals evolved alongside the badger sized burrowers. Steve talks to Jim Al-Khalili about his life and work, including the recent discovery of an incredibly well-preserved Pterosaur on the Isle of Skye, a place he likes to call Scotland’s Jurassic Park. Producer: Anna Buckley

Sir Shankar Balasubramanian is responsible for a revolution in medicine. The method he invented for reading, at speed, the unique genetic code that makes each one of us who we are, is ten million times faster than the technology that was used in the human genome project at the turn of the century. What’s more, it can be done much more cheaply than before and on a desktop machine. And it’s transforming healthcare, by helping us to understand the genetic basis of many diseases (particularly cancers) and to develop new diagnostic tests, medicines and personalised treatments. ‘DNA has never failed to keep me excited and curious’ says Shankar, winner of the highly prestigious 2022 Breakthrough Prize in Life Sciences. He didn’t set out to create a game-changing technology or to make a lot of money. He just wanted to understand the DNA double helix in the greatest possible detail; to reveal how it worked, molecule by molecule. And he still rides a rickety old bicycle to work in Cambridge. Producer: Anna Buckley Image ©University of Cambridge

Early in her career, Julia wanted to know if it was possible to get someone to believe they committed a crime (when they hadn’t)? In a bold experiment she showed how students created false memories of criminal events in their teenage years, describing in rich detail how they had assaulted people, when no such events had taken place. What does this mean for a criminal justice system that relies heavily on memory-based evidence? Does it make it more difficult for the victims of crimes to have their voices heard? Victims of sex crimes, in particular. Or can the findings of false memory research be used to prevent miscarriages of justice? Julia talks to Jim Al-Khalili about growing up with her dad’s delusional beliefs and paranoid thoughts and how a profound appreciation that everyone’s reality is different pulled her to the field of false memory research. Producer: Anna Buckley

Microbiologist Sharon Peacock has led one of the genuine science success stories of the pandemic. Professor Peacock is the founding director of COG-UK, the COVID-19 Genomics UK consortium. COG-UK is the network of 600 scientists and labs around the country which has acted as our surveillance system for the appearance and spread of new and dangerous variants of concern. Thanks to Professor Peacock and her colleagues, the UK was way ahead of other countries in establishing a national network of SARS-CoV-2 sequencing and genomic analysis although she was the target of criticism when COG-UK was being set up in the spring of 2020. However, as she tells Jim Al-Khalili, it paid off. For example, it was the sequencing of virus samples by the consortium that last December identified the fast-spreading Alpha or so-called Kent variant. This was the variant responsible for the terrible second wave of deaths and hospitalisations last winter. It was a combination of the overwhelmed hospitals, rocketing infection rates and the discovery of Alpha that persuaded the government to tighten the rules for that Christmas and institute the lockdown in January. Before the pandemic, Sharon Peacock was a pioneer and advocate for the application of pathogen genome sequencing in the National Health Service to tackle the growing menace of antibiotic resistance. She is a consultant in microbiology and Professor of Public Health and Microbiology at the University of Cambridge. This is not a list of titles and achievements which Sharon could have possibly imagined when she left school at 16, to work full time in her local corner shop. Producer: Andrew Luck-Baker

The huge popularity of meerkats is in no small part down to Professor Tim Clutton-Brock, zoologist and evolutionary biologist of the University of Cambridge. ‘Meerkat Manor’ and many natural history TV documentaries that have followed the lives of these small appealing mongooses were filmed at the field research centre in South Africa which Tim set up three decades ago. Colleagues describe Tim Clutton-Brock as one of the giants in the field of animal behaviour and societies, seeking to explain them from an evolutionary and ecological perspective. He is renowned for his ambitious, long-term studies of populations of animals in the wild. His research follows hundreds of individuals to see how the animals develop and fare over their entire lifetimes and what factors determine their longevity and their success at producing offspring. Among the numerous species which Tim has studied are red deer on the island of Rum in Scotland and meerkats in the Kalahari Desert in South Africa. From the minutiae of the lives of many individual animals, his aim has been to see the big picture – explanations that provide a logical framework for what we see in Nature. Professor Clutton-Brock talks to Jim Al-Khalili about his five decades of research; including why sons cost mothers more than daughters, getting close to fighting stags at night, and how to tame a meerkat so she’ll let you ultrasound her belly. Producer: Andrew Luck-Baker

Many of us take dietary rules for granted such as eating little and often, not skipping meals and keeping a check on our calorie intake. But genetic epidemiologist Professor Tim Spector argues we need to re-evaluate what we think we know about a good diet: diversity in both the types of food we eat and in the unique mix of microbes we nurture in our gut is the most important factor for health. In a multi disciplinary career following early training as a rheumatologist, Tim founded the UK Twins Registry at Kings College London to unravel the extent to which genes contribute to a vast range of human conditions and diseases. But the puzzling differences he observed in identical twins would fuel his current research on the gut microbiome and the discovery that each of us has a unique mix of gut bacteria – in effect a chemical factory that dictates our highly individual responses to different foods. Tim tells Jim Al-Khalili how his research has evolved to successfully develop a new scientific approach to personalised nutrition – through technology that during the pandemic has famously been pressed into service to track Covid symptoms across the UK, and that’s now revealing how a diverse diet has huge implications for Covid-19 outcomes. Producer: Adrian Washbourne

Could the lessons learnt during the pandemic put us in a stronger position to tackle other big science-based challenges ahead, such as achieving carbon net zero, preserving a diversity of species, and protecting our privacy and slowing the spread of misinformation online? As Chief Scientific Adviser to the government during a pandemic, Patrick Vallance's calm, clear summaries of the state of our scientific understanding of the virus were welcomed by many. But what was going on behind the scenes? In this extended interview with Jim Al-Khalili, Patrick opens up about the challenges involved in presenting scientific evidence to government and together they explore that trickiest of relationships - the one between scientists and politicians. He also looks to the future. Scientists gain prominence during a crisis but the need for scientific input to government is ever present. As head of the new Office for Science and Technology Strategy, based in the Cabinet Office, Patrick hopes to put science and technology at the heart of policy making in government. Science should be as central to government as the economy, he says and tells Jim how he thinks that could be achieved. Producer: Anna Buckley

How damaging is the stereotype of white males in white coats? Do scientists think differently? Or do the qualities we associate with being a nerd do them a disservice? Is specialism the best way to solve 21st century problems when so many great discoveries are made in the cracks between the disciplines? In short, what makes a scientist, a scientist? Jim and distinguished guests consider the lessons learnt from nearly 250 leading scientists talking with extraordinary honesty about their life and work. And ask: has the job description changed? Success in science is often defined by making discoveries and publishing papers but, as the pandemic made clear, we also need scientists who can interact with decision makers in government and elsewhere. Do scientists need to learn new skills to participate in the decision making process? Do they (or at least some of them) need to be more outward looking, aware of the world beyond their laboratories and ready to engage? Or do the corridors of power need to open their doors to more people with a scientific training? And, if Britain is to become a science superpower, is it time that scientists stopped being squeamish about making money? Jim's guests are Chief Executive of UK Research and Innovation, Prof Dame Ottoline Leyser; Nobel Prize winning biologist and Director of the Crick Institute, Prof Sir Paul Nurse; geologist and Royal Institution Christmas Lecturer, Prof Christopher Jackson; and forensic scientist and member of the House of Lords, Prof Dame Sue Black. Producer: Anna Buckley

This summer, many parts of the world have seen devastating flooding, from New Orleans and New York, to the UK, Germany and Belgium. More than 300 people lost their lives in floods in central China, including a number who were trapped in a subway train in the city of Zhengzhou. Professor Hannah Cloke of the University of Reading is a natural hazards researcher and hydrologist, who spends her time trying to prevent these terrible losses. She models where flooding is likely to happen and advises governments. Hannah Cloke talks to Jim al-Khalili about how her fascination with the water on the earth goes back to her childhood – her memories of holidays for instance all revolve around swimming or building dams on the beach. She is now passionate about finding new ways of telling the public about the dangers of flooding, which includes writing poetry.

How many of you have sleep problems? Maybe it’s waking up in the middle of the night and then not being able to get back to sleep, or waking up too early, or nodding off all too often in front of the TV… or, more embarrassingly, during work meetings? One thing’s for sure: our modern world means that we are not sleeping in the way we used to. Derk-Jan Dijk, Distinguished Professor of Sleep and Physiology at the University of Surrey and Director of the Surrey Sleep Centre, says: we are the only species to extend our day using artificial light, and that has consequences. Jim Al-Khalili talks to Derk-Jan Dijk about the many aspects of sleep that he has studied over the last thirty years – such as how circadian rhythms interact with our sleep cycles, and how sleep changes in people with dementia.

When did you last really think about the amount of electricity your household uses? Are all your appliances A rated? Have you switched to LED lights? And what about the Energy Performance Certificate of your home? Is there room for improvement there? For decades now, Brenda Boardman has been thinking about how to reduce the amount of energy we use in our homes. We have Brenda to thank for the rainbow-coloured energy efficiency labels with their A- G ratings that appear on new fridges, freezers, TVs, dishwashers, and washing machines. As a result of these labels and subsequent legislation, it’s no longer possible to buy an energy inefficient fridge or incandescent light bulbs. And there’s a strong incentive for manufacturers to make appliances ever more energy efficient. But the introduction of the Energy Performance Certificate for homes has been less successful. So, is achieving carbon net zero in our homes a realistic proposition? Brenda tells Jim Al-Khalili how much she learnt travelling the world, having just missed out on a place at university. And why in her thirties she decided to study part-time for a degree. Working and bringing up children at the same time, it took a while to complete a degree and then a PhD. But, aged 48, Brenda began her academic career working at the Environmental Change Institute in Oxford and has no regrets about the time she spent getting to know who she was an what the world was like. Producer: Anna Buckley

Literature student turned neuroscientist, Prof David Eagleman, tells Jim Al-Khalili about his research on human perception and the wristband he created that enables deaf people to hear through their skin. Everything we see, taste, smell, touch and hear is created by a set of electro-chemical impulses in the dark recesses of our brain. Our brains look for patterns in these signals and attach meaning to them. So in future perhaps we could learn to ‘feel’ fluctuations in the stock market, see in infra-red or echo-locate like bats? Each brain creates its own unique truth and David believes, there are no real limits to what we humans can perceive. Producer: Anna Buckley

‘I didn’t know I wanted to be a mathematician until I was one’ says Hannah Fry, now a Professor in the Mathematics of Cities at University College London. Her mother pushed her hard at school, coming down on her like a tonne of bricks when she got a C for effort in mathematics. Never mind that she was top of the class. By the time she’d finished a PhD in fluid dynamics, she had realised that she probably wasn’t going to be a hairdresser and pursued her other passion, Formula One. Sadly F1 wasn’t the dream job she’d imagined: all the interesting equations were wrapped up in computer simulations and no further maths was needed. Keen to continue doing mathematics, she joined the Centre for Advanced Spatial Analysis at University College London just as people were starting to use data to understand human behaviour. (Yes. If you zoom out enough and use some mathematical tools, there are parallels between the airflows around racing cars and the way humans behave.) She has studied everything from the mathematics of love to civil unrest, and has advised governments and Deep Mind, the artificial intelligence research lab owned by Google. At a public lecture in Berlin in 2018, she learnt the hard way that it’s a mistake to detach data from its context. Never again will she forget to ask, what do these numbers represent? How else could my algorithms be used? Is this something we, as a society, want? Data and algorithms help humans to solve problems. Big, difficult problems like climate change and Covid-19. Mathematics can help us to police a riot or find love. But the idea that maths and numbers are value-neutral is deeply flawed, Hannah says. The artificial intelligence we create is a reflection of who we are. It can discriminate horribly. But, applied wisely, it could help us to start to overcome our unconscious biases and prejudice. We humans are not perfect. Neither is AI. If we scrutinise the algorithms that now make so many decisions for us and make sure that their priorities are our priorities, then perhaps we can get the best of both. In the Age of the Algorithm, humans have never been more important Hannah Fry tells Jim Al-Khalili about her life as a mathematician and why her attitude to risk and statistics changed dramatically earlier this year. Producer: Anna Buckley

Certainty is comforting. Certainty is quick. But science is uncertain. And this is particularly true for people who are trying to understand climate change. Climate scientist, Tamsin Edwards tackles this uncertainty head on. She quantifies the uncertainty inherent in all climate change predictions to try and understand which of many possible storylines about the future of our planet are most likely to come true. How likely is it that the ice cliffs in Antarctica will collapse into the sea causing a terrifying amount of sea level rise? Even the best supercomputers in the world aren’t fast enough to do all the calculations we need to understand what might be going on, so Tamsin uses statistical tools to fill in the gaps. She joined the International Panel on Climate Change (IPCC) in 2018 and is currently working on the 6th Assessment Report which will inform the 2021 United Nations Climate Change Conference, COP26. She tells Jim Al-Khalili about her life and work and why she wishes more people would have the humility (and confidence) to consider the possibility that they might be wrong. Producer: Anna Buckley

As the craze for cold water swimming continues, Jim Al Khalili talks to triathlete and Professor of Extreme Physiology, Mike Tipton. Is it as good for our mental and physical health as many enthusiasts claim? And do the benefits go beyond a rush of adrenaline causing feel good endorphins to be released in our brains? Mike studies why people drown. He wants to understand the precise physiological changes that occur when we expose ourselves to extreme environments and to use that information to help save lives. (Shivering and sweating will only get you so far when it comes to temperature control). Most deaths at sea are caused by the initial cold water shock response, not hypothermia. People gasp for air and swallow lethal quantities of water. So is it a case of kill or cure for cold water swimmers? What does the scientific evidence say about the idea that repeated cold water immersion can boost our immunity and have an anti-inflammatory effect? Mike tells Jim how he came to specialise in this area of science and why he believes we should all be challenging our bodies more. Producer: Anna Buckley

When does a crowd of people become unsafe? How well will Aston Villa do next season? When is it cost-effective to replace a kitchen? The answers may seem arbitrary but, to Nira Chamberlain, they lie in mathematics. You can use maths to model virtually anything. Dr Nira Chamberlain is President of the Institute of Mathematics and its Applications, and Principal Mathematical Modeller for the multinational engineering company SNC-Lavalin Atkins. He specialises in complex engineering and industrial problems, creating mathematical models to describe a particular feature or process, and then running simulations to better understand it, and predict its behaviour. Nira is one of just a handful of esteemed mathematicians, and the first black mathematician. to be featured in ‘Who’s Who’, Britain’s book of prominent people. Since 2018, he’s made the Black Power List, which celebrates the UK’s top 100 most influential people of African or African-Caribbean heritage, ranking higher than Stormzy and Lewis Hamilton when he was first listed. Proof, he says, that maths really is for everyone. PRODUCER: Beth Eastwood

Luminescent bone-eating worms, giant squid and a sea cucumber commonly known as the headless chicken monster: some extraordinary creatures live at the bottom of the sea. For a long time almost everyone agreed the pressure was too intense for any life to exist. Now, it seems, the more we look the more new species we find. But, many fear, marine life would be threatened if plans to extract precious metals from the potato-sized metallic nodules that grow on the seabed are allowed to go ahead. Metals such as copper, manganese and cobalt are in high demand in the manufacture of mobile phones and renewable energy technologies, such as batteries for electric cars, wind turbines and solar panels. Deep sea mining companies argue that we will need these metals to create a carbon Net Zero economy. Meantime, the World Wildlife Fund is pushing for a moratorium on deep sea mining. And several companies agree: including Google, BMW, Volvo and Samsung. Do we need to choose between green and blue? Or is there a third way that protects both the planet and all the riches in our oceans? Marine biologist, Helen Scales talks to Jim Al-Khalili about her life and work: fish watching off an atoll in the South China Sea to assess the extinction risks to the Humphead Wrasse and a research expedition to explore the brilliant abyss. And she warns of the environmental devastation that could be caused if plans to mine the metals on the bottom of the ocean were to be allowed to go ahead. Producer: Anna Buckley

Throbbing head, nausea, dizziness, disturbed vision – just some of the disabling symptoms that can strike during a migraine attack. This neurological condition is far more common than you might think, affecting more people than diabetes, epilepsy and asthma combined. While medications, to help relieve the symptoms of migraine, have been around for some time, they haven’t worked for everyone. And what happens in the brain during a migraine attack was, until recently, poorly understood. Peter Goadsby is Professor of Neurology at King's College London’s Institute of Psychiatry, Psychology & Neuroscience and is a true pioneer in the field of migraine. Over the course of his career, he has unravelled what happens in the brain during a migraine attack and his insights are already benefiting patients - in the form of new medications that can not only treat a migraine, but also prevent it from occurring. Peter shares this year’s Brain Prize, the world's largest prize for brain research, with three other internationally renowned scientists in the field. Producer: Beth Eastwood

Professor Jane Clarke has had a fascinating double career. Having been a science teacher for many years, she didn’t start her research career until she was 40. Today she is a world-leading expert in molecular biophysics and, in particular, in how protein molecules in the body fold up into elaborate 3D structures, that only then enables them to carry out their roles. How they do this has been one of the fundamental questions in biology and the key to combating some of our most challenging diseases, caused by the misfolding of proteins. Jane talks about her journey, from Tottenham schoolteacher to Cambridge Professor and Fellow of the Royal Society, and how, despite the obstacles she’s encountered along the way, she’s always been driven by her passion to understand the mystery of the machinery of life. Producer: Adrian Washbourne

When Martin Sweeting was a student, he thought it would be fun to try to build a satellite using electronic components found in some of the earliest personal computers. An amateur radio ham and space enthusiast, he wanted to create a communications satellite that could be used to talk to people on the other side of the world. It was a team effort, he insists, with friends and family pitching in and a lot of the work being done on his kitchen table. Somehow he managed to persuade Nasa to let his microsatellite hitch a ride into space and, after the first message was received, spent more than a decade trying to get a good picture of planet earth. The technology that Martin pioneered underpins modern life with thousands of reprogrammable microsatellites now in orbit around the earth and thousands more due to launch in the next few years to bring internet connections to remote parts of the world. The university spin-off company, Surrey Satellite Technologies Limited (SSTL) that Martin set up in the 1980s with an initial investment of £100 sold for £50 million a quarter of a century later. If his company had been bought by venture capitalists, he says he would probably have ended up making TVs. Instead he developed the satellite technology on which so much of modern life depends. Producer: Anna Buckley Photo Credit: SSTL

We all know how to be more healthy. And yet we are also remarkably good at NOT doing what we know is good for us. We keep meaning to get fit, but the sofa seems so much more appealing than a run. We know we shouldn’t have another slice of cake, but we do. Behavioural psychologist, Professor Dame Theresa Marteau wants to understand why, despite the best of intentions, so many of us fail to adopt healthier lifestyles. She talks to Jim Al-Khalili about her life and work and why, after studying the evidence she changed her mind about how to change our behaviour. Back in the 90s, it seemed reasonable to assume that telling people they were at high risk of dying would jolt them into eating more healthily and taking more exercise. Now we know better. Thanks in large part to research pioneered by Theresa, we have a much more sophisticated understanding of what drives our behaviour. It turns out that small scale interventions to redesign our environment can exert a big influence on our behaviour by nudging us all into make better decisions, in ways that are beyond our awareness. Spoiler alert - smaller wine glasses really do make you drink less! Responses to Covid-19 show that nations can act rapidly and radically in response to immediate threats to health, even at huge cost. Can we do the same to tackle other threats to global health? Producer: Anna Buckley

Inside the mind of a forensic botanist, Mark Spencer tells Jim Al-Khalili how he uses plant evidence to help solve crimes. By studying the vegetation at crime scenes, Mark can tell how long a dead body has been laying in the ground. Brambles can be particularly informative, he says. And by looking at tiny traces of plants under the microscope, he can link suspects to victims, or particular locations. Mark tells Jim Al-Khalili how he came to be a forensic botanist. After working in bars and clubs in Soho for many years, he decided to study for a degree in botany and developed a special interest in water moulds. As a curator of the botanical collections at the Natural History Museum in London, he became intimately acquainted with British flora past and present. And, more recently, has spent a lot of time monitoring urban wildlife – recording how the composition of native species and non-native species in the capital is changing, as the global climate changes and the global trade in plants continues. Producer: Anna Buckley

What would happen to our carbon emissions if we all went vegan? Astrophysicist, Sarah Bridle tells Jim Al-Khalili why she switched her attention from galaxies to food. A rising star in the study of extra-galactic astronomy, Sarah was a driving force behind one of the most ambitious astronomy projects of recent times, the Dark Energy Survey of the universe. A few years ago, she started trying to calculate the carbon emissions from different foods so that she could make more informed choices about what she was eating in terms of the impact they were having on climate change. Before long, she was adapting the statistical tools and techniques she had developed to study dark matter and dark energy, to quantify the carbon cost of different foods and lobby government to make food labels indicating carbon cost of foods compulsory. Producer: Anna Buckley

For a long time people who heard voices or suffered paranoid delusions were thought to be too crazy to benefit from talking therapies. As a young man working on a prison psychiatric ward, Richard Bentall thought otherwise. Together with a small group of clinical psychologists, he pioneered the use of the talking therapy CBT for psychosis and conducted rigorous randomized controlled trials to find out if and why it worked. Turns out, having a good relationship with your the therapist is at the heart of why therapy succeeds, regardless of the type of therapy practised. Richard talks to Jim Al-Khalili about his quest to understand psychosis and how his own mental health has suffered at times. He's interested in how adverse life events affect our mental health and has shown that people who suffer abuse, bullying and victimization as children are three times more likely to have a psychotic episode later in life. A large survey of our mental health, launched by Richard and colleagues on day one of the first lockdown has revealed that lockdown and Covid-19 has not led to a tsunami of mental illness that many feared. 10% of the population has seen their mental health improve. Producer: Anna Buckley

Mice, like humans, prefer to be treated with a little dignity, and that extends to how they are handled. Pick a mouse up by its tail, as was the norm in laboratories for decades, and it gets anxious. Make a mouse anxious and it can skew the results of the research it’s being used for. What mice like, and how they behave, is the focus of Professor Jane Hurst’s research. Much of that behaviour, she’s discovered, can be revealed by following what they do with their noses - where they take them and what’s contained in the scent marks they sniff. Now William Prescott Professor of Animal Science at the University of Liverpool, Jane has unravelled a complex array of scent signals that underpin the way mice communicate, and how each selects a mate. Within this heady mix of male scent, she’s identified one particular pheromone that is so alluring to females that she named it Darcin, after Mr Darcy in Pride and Prejudice. Producer: Beth Eastwood

Public health has been on all of our minds during the pandemic and Prof Dame Anne Johnson has spent more time thinking about it than most of us. She studies the human behaviours that enable viruses to spread and is an architect of a highly influential report on Covid-19 published in July 2020 by the Academy of Medical Sciences, Preparing for a Challenging Winter. For many years Anne was uncertain about a career in medicine. But the time she spent in the slums of Caracas and working as a GP in some deprived areas of Newcastle opened her eyes to the importance of good public health. In the early days of the HIV AIDS epidemic, Anne proved that HIV AIDS was transmitted heterosexually. Her landmark study involved asking people detailed questions about their sex lives and she went on to co-create the National Survey of Sexual Attitudes and Lifestyles. The survey was banned by the then Prime Minister Margaret Thatcher and thought by many to be a scientific enterprise that was doomed to fail. But it continues to this day, informing our sex education policy and public health interventions to control the spread of HIV and other sexually transmitted infections. In the noughties, Anne turned her attention to influenza. She was heavily involved in Flu Watch, a community survey that collected a great wealth of data during the Swine Flu pandemic of 2009. It revealed high levels of asymptomatic infections and showed how T cell immunity could offer protection against different strains of influenza. Insights that have proved to be highly relevant to the study of Covid-19 and how it spreads. Anne tells Jim Al-Khalili what gets epidemiologists like her out of bed in the morning and why it’s so important to focus on prevention as well as cure. Producer: Anna Buckley Credit: Academy of Medical Sciences/Big T Images

Many of us think we’re in control of what we eat and that, coupled with what we do, dictates our shape and size. It’s physics after all - if you eat too much and move too little, you put on weight; do the opposite, and you lose it. Genes, the theory goes, have minimal if any effect on our size. But what if we’re wrong? What if our genes have a powerful influence over how we put on weight, and why many struggle to lose it? Over the past two decades, this once controversial idea has gained acceptance and has inspired the work of Giles Yeo. His research on the genetics of obesity at Cambridge University reveals the powerful ways in which our genes, which function within our brains, influence our eating behaviour. These genes are far better suited to times of food scarcity. Fast forward to the modern diet, packed with sugar and fat, and our genetic makeup quickly becomes a recipe for disaster. Producer: Beth Eastwood

Professor Cath Noakes studies how air moves and the infection risk associated with different ventilation systems. Early in the pandemic, she was invited to join the government’s Scientific Advisory Group for Emergencies, SAGE and asked to study the transmission routes for Covid-19. In July, together with many other scientists, she urged governments around the world and the World Health Organisation to recognise that Covid-19 could be transmitted in tiny particles in the air, even if the risk of getting infected in this way was much smaller than the risk from larger particles that travel less far. Her research highlights the importance of good ventilation as a way to stop the spread of infection in indoor environments. Being in a well ventilated space can reduce the risk of inhaling tiny airborne pathogens by 70%. Cath talks to Jim Al-Khalili about her journey from studying industrial processes to infection risk, her work on the airborne transmission of diseases and the challenge of designing buildings that are both well ventilated and energy efficient. Producer: Anna Buckley Photo credit: University of Leeds

Chris Jackson is the kind of scientist who just loves to get out into the landscape he loves. He’s often introduced as ‘geologist and adventurer’. For the past five years he’s been Professor of Basin Analysis in the Department of Earth Sciences and Engineering at Imperial College London and he’s now about to move back to the University of Manchester, where he studied as a student, to become Professor of Sustainable Geoscience. As a child growing up in Derby, Chris learned to love the outdoors on family trips to the Peak District. Recently, you may have seen him abseiling into a crater of an active volcano in the Democratic Republic of Congo for a BBC TV series. He’s also been telling us about the link between our planet’s geology and climate change as part of the recent Royal Institution Christmas lectures. Chris talks to Jim al-Khalili about working in the oil and gas exploration industry at the start of his career, searching for massive deposits of salt deep inside the earth and his experience of being a black geologist.

More of us have been exposed to so more science than ever before during 2020. And our insatiable appetite for science shows no sign of diminishing. Back in 2019, most scientists struggled to get any media attention. Now scientists involved in fighting the pandemic are generating headlines almost daily. On top of working harder than ever to further our understanding of the virus, many have become public figures. Some have been caught in the headlights. Others have stepped into the footlights. Many have found themselves at the centre of highly politicised conversations - not something a scientific training prepares you for. And the fact that everyone is now an expert on R numbers and immunology has created a new set of challenges. Jim Al-Khalili explores how The Life Scientific has changed during the pandemic and asks if, during these difficult times, a new relationship between scientists and the media has been forged. We look to science for certainty (all the more so during uncertain times) but there is no magic moment when scientists can announce with absolute certainty that ‘this is how it is’. Now that science is being reported in real time, revealing all the ups and downs on the bumpy road to discovery is there a danger that our faith in science will be undermined. Or could one legacy of the pandemic be a much greater appreciation of the true nature of scientific knowledge and how it’s formed? Has good journalism helped science to progress by synthesising scientific findings and interpreting what they mean? And, when the pandemic is over, will scientists continue to be part of the national debate? Producer: Anna Buckley

Neil Ferguson is known to many as Professor Lockdown. The mathematical models he created to predict the spread of Covid-19 were influential but, he says, it took him quite a long time to be persuaded that full lockdown was a good idea. A physicist by training, Neil switched from studying string theory to the spread of disease and presented scientific advice to government during the BSE crisis, an outbreak of foot and mouth disease in livestock in 2001 and the swine flu pandemic of 2009. In January 2020, he issued his first report on Covid-19 estimating the extent of the outbreak in Wuhan City in China. In March, he predicted that 510,000 people in the UK could die if nothing was done to mitigate the spread of this pandemic. Does he stand by that prediction? And how worried is he now? Jim Al-Khalili talks to Neil Ferguson about his life and work, the tricky relationship between politics and science and asks if he has any regrets about lockdown. Producer: Anna Buckley for BBC Radio Science

Sarah Gilbert started working on a vaccine for Covid-19 just as soon as the virus genome was sequenced. Within weeks, she had a proof of principle. By early April, her team at the Jenner Institute in Oxford had manufactured hundreds of doses ready for use in clinical trials. In phase one of these trials, completed in July, this vaccine was shown to be safe for use in a thousand healthy volunteers, aged between 18 and 55. It also provoked exactly the kind of immune response to Covid-19 that Sarah was hoping to achieve. Larger scale clinical trials are currently underway in the UK, South Africa and Brazil. If everything goes according to plan and the vaccine meets all the necessary regulatory standards, it will be manufactured in multiple locations including the Serum Institute in India and made available for use in low to middle income countries. AstraZeneca has already committed to making two billion doses, each costing about $4. The UK has an order in for 100 million. Sarah talks to Jim Al-Khalili about her life and work. As a young woman, she nearly gave up on a career in science. Now she’s in charge of one the most successful vaccine projects in the world. How did Sarah and her Oxford team get so far, so fast in developing a vaccine against Covid-19? Producer: Anna Buckley

Steve Haake,has spent much of his career using technology to help elite sports people get better, faster and break records. He has turned his hand to the engineering behind most sports, from studying how golf balls land, to designing new tennis racquets and changing the materials in ice skates. He’s now Professor of Sports Engineering at Sheffield Hallam University and was the Founding Director of the Advanced Wellbeing Research Centre there. Since the 2012 London Olympics, Steve has also been working to improve the health and wellbeing of all of us. As Chair of the Parkrun Research Board he’s heavily involved in this international phenomenon in which thousands of people have sprinted, jogged and stumbled around a 5-kilometre course on Saturday mornings, which he’s shown really does encourage people to be generally more active. Jim al-Khalili talks to Steve Haake about how he got from a physics degree to being one of the leading sports engineers in the world, and how we can all improve our health by moving more.

When Francesca Happé started out as a research psychologist thirty years ago, she thought she could easily find out all there was to know about autism – and perhaps that wouldn’t have been impossible as there were so few papers published on it. Francesca’s studies have increased our knowledge of how people with autism experience the world around them, and their social interactions. She’s looked at their brains using various imaging techniques, studied the families of people with autism to explore their genetics, and raised awareness of how the condition can appear differently in women than in men. Jim al-Khalili talks to Francesca, now Professor of Cognitive Neuroscience at the Institute of Psychiatry, Psychology and Neuroscience in London, about her research career and her current projects, including how people with autism experience mental health issues, such as PTSD.

Professor Heather Koldewey wants to protect our oceans from over-fishing and plastic pollution. An academic who is not content to sit back and let the science speak for itself, she wants to turn science into action and has found conservation allies in some unexpected places. Working with a carpet manufacturer, she created Net-Works, a business that turns old fishing nets into high-end carpet tiles and she has collaborated with Selfridges department store to give marine conservation a make-over. A research career that began studying the genetics of brown trout in Welsh rivers took her to the Philippines to save seahorses and a job running the aquarium at London Zoo. In 2018, she was made a National Geographic Fellow. Heather tells Jim Al-Khalili why, despite all the challenges to marine life, she remains an ‘ocean optimist’ and how she learned to drop her ‘scientific seriousness’. Producer: Anna Buckley

Professor Dale Sanders has spent much of his life studying plants, seeking to understand why some thrive in a particular environment while others struggle. His ground breaking research on their molecular machinery showed how plants extract nutrients from the soil and store essential elements. Since plants can’t move, their survival depends on these responses. In 2020, after 27 years at the University of York, he became the Director of the John Innes Centre in Norwich, one of the premier plant research institutions in the world. Meeting the food needs of a growing global population as the climate changes is a major challenge. And, Dale says, it’s not only about maximising yields. We need crops that are more resilient and more nutritious. Drought resistant crop varieties, for example. And zinc-rich white rice. Dale talks to Jim about how plant science is helping to feed the world in a sustainable way and why plant scientists don’t always get the recognition they deserve. Producer: Anna Buckley

Professor Andrew Fabian from Cambridge's Institute of Astronomy has spent his career trying to unravel the mystery of how some of the most dramatic events in the universe can profoundly influence its evolution. For over 50 years he’s been examining our universe using X-ray satellites orbiting way above earth’s atmosphere . He’s built up compelling evidence that supermassive black holes at the heart of galaxies are the engines that drive the movement of energy through the universe and provide the building blocks for the formation of new galaxies. They're extraordianry insights, for which he’s now been awarded the 2020 Kavli Prize in Astrophysics, one of the world's most prestigious science prizes. Jim Al-Khalili hears how Andy gets to capture epic galactic events in motion to build up a picture of this vast ecosystem - and also how he earned a place in the Guinness Book of Records for discovering the deepest note in the universe – a B flat , 57 octaves below middle C. Producer Adrian Washbourne

It’s amazing what we can learn from a pile of old bones. Having worked as a paediatric surgeon for several years (often doing the ward round on roller blades), Alice Roberts spent a decade teaching anatomy to medical students and studying human remains. A niche interest in the collar bone and how it has changed since we evolved from the common ancestor we share with other apes 6 million years ago, led her to some of the biggest questions in science. Who are we? And where do we come from? She is the presenter of several landmark TV series on human evolution and archaeology, such as The Incredible Human Journey and Digging for Britain. And in 2019 she became President of the British Science Association. In conversation with Jim Al Khalili, Alice shares her passion for the bones of our ancient ancestors and of the freshly dead, and describes her own incredible journey from a basement full of medieval bones to an eminent science communicator and public figure. Producer: Anna Buckley

Why does violence break out in some crowds and not in others and what can the police do to reduce the risk of this happening? Professor Clifford Stott tells Jim Al-Khalili about his journey from trouble maker to police advisor and explains why some policing strategies are more successful than others. As a teenager Clifford was often in trouble with the police. Now he’s a professor of crowd psychology who works with the police suggesting new evidence-based strategies for public order management. ‘If we misunderstand the psychology of the crowd then all attempts at crowd control are doomed to fail’, he says. Cliff’s work on football crowds revolutionised the way matches were policed and led to a dramatic reduction in football hooliganism. He’s studied the riots in London and other British cities in 2011 and the mass protests in Hong Kong in 2019. And in 2020 he joined the government advisory board, SAGE to advise the government on how to reduce the risk of civil unrest in the wake of a global pandemic. Producer: Anna Buckley

Emma Bunce, Professor of Planetary Plasma Physics at the University of Leicester, was inspired to study the solar system as a child by a TV programme that featured Voyager 2’s flyby of Neptune. She has spent the last 20 years focusing on the magnetic fields around the outer planets, in particular that of Jupiter. The Earth’s magnetic field interacts with the solar wind to create aurorae, the spectacular Northern lights. Emma’s discovered how aurorae are also produced at Jupiter's poles. Emma Bunce talks to Jim al-Khalili about her fascination with the gas giants, why she has to be patient to check out her theories as missions to the planets are few and far between and how she'd love to work on a spacecraft to Neptune. And in the year when the Royal Astronomical Society marks its 200th anniversary, Emma explains why she's taken on the role of its President.

Jane Goodall, aged 86, reflects on the years she spent living with the wild chimpanzees in Gombe in eastern Tanzania and tells Jim Al Khalili why she believes the best way to bring about change is to ‘creep into people’s hearts’. Jane shot to fame when she appeared on the cover of National Geographic magazine in 1963 and appeared in a documentary film directed by Orson Welles. Her ground breaking observations introduced us to the social and emotional lives of wild chimpanzees and changed our view of what it is to be human. Images of her younger self play wrestling with baby chimps make Jane feel slightly apprehensive now but at the time she didn’t give it a second thought. However, she did take care to protect her young son. Seeing distressing footage of chimps who were living in captivity, she gave up fieldwork to become an activist, working to liberate chimpanzees that were being used for medical research or sold for meat or as pets, and setting up chimp sanctuaries for animals that were no longer able to live in the wild. For the last thirty years, she has campaigned gently but relentlessly to protect wild animals and wild places, touring the world and performing on stage in front of huge audiences. Her global youth programme, Roots and Shoots has inspired and empowered millions of people to understand and respect nature, leading some to call her ‘the mother Theresa of the environment’. A label she dislikes. Producer: Anna Buckley Photo credit: the Jane Goodall Institute / By Bill Wallauer

Professor Jim Al-Khalili talks to Liz Seward, Senior Space Strategist for Airbus Defence and Space. Liz's young interest in Science Fiction led to a career designing spacecraft and robots for exploring our own earth, other planets, and the stars. From a library in the US where the science fiction section stood next to the children's section, Liz took inspiration from Robert A. Heinlien and Arthur C. Clarke through a degree in Physics and Space Science at the University of Leicester to begin a career at EADS Astrium (now part of Airbus), initially as a Thermal Engineer. As Liz explains to Jim, thermal engineering lies at the heart of any successful space mission. Any metal box floating in space has to deal with the searing heat of the Sun on one side and the deep, deep freeze of the cosmos on the other. Engineering solutions to cope with these extremes means the difference between triumph and failure. Liz has worked on several missions and international collaborations, including a design for a landing (since de-scoped) on Mercury aboard the current BepiColombo mission due to arrive at Mercury in 2025, and the experimental Areolus satellite that currently keeps our weather forecasters up to speed on global wind dynamics. A large part of Liz's career was spent with the ESA Martian rover, named Rosalind Franklin, which should have been on its way to the red planet this summer, but has been delayed because of the Covid-19 pandemic. Nowadays at Airbus, Liz works on the strategy of maximizing commercial potential in space, whilst abiding by issues of responsibility around exploration, pollution, and even space traffic management. What if a launch to Mars collides with a long dead weather satellite on its way there? Or that the first detection of life on Mars turns out to be a cold virus from Stevenage? But as she explains to Jim, miniaturization and cheaper launches suggest a bright future for human activity in space. And one day, it may include vertical satellite launches from Scotland, and even passenger flights from Cornwall. Producer Alex Mansfield, Sound production by Giles Aspen.

Long before most of us gave air pollution a second thought, Frank Kelly was studying the impact of toxic particles on our lungs. In a pioneering set of experiments on human volunteers in northern Sweden, he proved that pollutants, such as nitrogen oxides and particulates, are harmful to our health. And he is the driving force behind an air quality monitoring system in London that is the envy of the world. When in the late 1990s, the UK government was encouraging us all to buy diesel cars to help reduce our carbon emissions, he warned that while diesel engines might be less bad for the planet than petrol engines, they were more damaging to our health. Later Frank and his team provided evidence that the car manufacturers were not telling the truth about emissions from diesel vehicles. As the chair of the Government Medical Committee on the Medical Effects of Air Pollution, he has worked tirelessly to try and move air pollution up the political agenda and worked closely with successive Mayors of London to improve air quality in the capital. Changing all the buses from diesel to hybrid or electric vehicles would make a huge difference, he says. But we will also need to get used to relying less on driving our cars to get us from A to B. Producer: Anna Buckley

Professor Debbie Pain has spent the last 30 years solving some of the most devastating threats to birdlife, saving many species from the brink of extinction. Her childhood passion for bird spotting drove her into conservation research with the RSPB and the Wildfowl and Wetlands Trust. She’s led scientific groundwork all over the planet: from reversing a dramatic mysterious decline in Asian vultures in the Indian sub-continent through to daring helicopters journeys into remote foggy North-East Russia in a bid to locate and conserve eggs of a hugely charismatic and threatened bird - the Spoon-billed Sandpiper. And as she tells Jim, her career defining research into one of the great hidden threats to birdlife - the toxic effect of billions of spent lead shot used to catch game birds - is finally turning the tide on attitudes to the unnecessary deaths of hundreds of thousands of wildfowl. Producer Adrian Washbourne

Jim McDonald grew up in Glasgow. He was the son of a rope-maker and the first in his family to go to university. Now he’s the Principal of Strathclyde University, a non-executive director of Scottish Power and President of the Royal Academy of Engineering. He worked in the electrical power industry for many years before becoming an academic. Much of his life has been spent making sure that we all have access to the electricity we need, when we need it. That includes when the sun doesn’t shine and the wind doesn’t blow! As we rely more and more on renewable energy and more of us start driving electric cars, making sure the National Grid is fit for purpose is going to be a real challenge. But Jim is on the case. Producer: Anna Buckley

Jim talks a man who studies the universe at the largest and smallest scales imaginable. When Brian Greene was just twelve years old, he wandered round Columbia University in New York looking for someone to teach him mathematics, with a letter of recommendation from his school teacher. While his mother wanted him to make money, his father encouraged Brian to pursue his passion, which was trying to understand the nature of the universe. He studied physics at Harvard University and won a Rhodes Scholarship to Oxford University. While at Oxford he learnt about a bold new Theory of Everything which predicts that the universe is made not of particles but rather tiny strings which vibrate in multiple dimensions. Now a Professor at Columbia University, he has worked on string theory ever since. He talks to Jim Al-Khalili about the rise and fall of string and superstring theory and why when he first started to think about what would happen to the universe at the end of time, he experienced a feeling of ‘hollow dread’. Producer: Anna Buckley

Professor Myles Allen has spent thirty years studying global climate change, trying to working out what we can and can't predict. He was one of the first scientists to quantify the extent to which human actions are responsible for global warming. As a lead author on the 3rd Assessment by the International Panel on Climate Change in 2001, he concluded that ‘most of the observed global warming was due to human influence’. More recently, (having established that calculating a safe concentration of greenhouse gases was very difficult indeed), he worked out instead how many tonnes of carbon would be acceptable, a shift in emphasis that paved the way for the current Net Zero carbon emissions policy. Myles tells Jim Al-Khalili how our ability to predict climate change has evolved from the early days when scientists had to rely on the combined computing power of hundreds of thousands of personal computers. He sheds light on how the IPCC works and explains why, he believes, fossil fuel industries must be forced to take back the carbon dioxide that they emit. If carbon capture and storage technologies makes their products more expensive, so be it. Producer: Anna Buckley Image Credit: Fisher Studios, Oxford.

It’s been estimated that humans are capable of detecting a trillion different smells. How is this possible when we have just 400 types of olfactory receptors located in the bridge of our nose? Matthew Cobb has spent many years studying maggots hoping to get to bottom of this problem. He spent several years studying the flirting rituals of fruit flies in Sheffield before moving to France to study at the world centre for fly research, not far from Paris. There are, of course, a lot of differences between maggots and humans but our olfactory systems have a lot in common. Producer: Anna Buckley

As a professor of visual neuroscience at Newcastle University, Anya Hurlbert is one of our most respected researchers into the way we see colour. In a career as a physicist, physiologist, neuroscientist and physician at some of the great research institutes on both sides of the Atlantic, Anya’s investigations into how we perceive the colour of objects has transformed our view of how our predominantly visual brains function. She explains how the multidisciplinary approach to research in vision from physics to psychology, and encounters with some leading Nobel Prize winners, has fostered a love of the slippery nature of colour. When, a few years ago, an online image of a blue and black striped dress spun virally out of control, it divided us all. Half of us were adamant the dress was white and gold, and the other half convinced it was blue and black, and it caused us all to question the objective way we think we see the world as it really is. Colour is, Anya argues, made in the mind, not just out there in the world and we don’t always see it in the same way. And as she reveals to Jim, with recent technological advances in LED lighting, she’s turned her attention to the nature of light itself, and how by controlling its components, it could have a profound influence on both our state of mind and the appreciation of our rich world of colour. Producer Adrian Washbourne

We’ve come to expect to be connected instantly to anywhere in the world and to have unlimited information at our fingertips. We shop online, stream music, download books and boxsets onto our electronic devices. We share videos of our pets just because we can. But how much time have you spent recently thinking about the remarkable feats of engineering that make all this possible? Polina Bayvel has been at the forefront of creating the optical fibre networks that are capable of transporting vast quantities of data from one place to another: linking continents via cables laid under oceans or enabling computer systems in data centres to share information. Without these high speed networks, ultra-fast high-capacity broadband will remain a dream. Polina tells Jim Al Khalili how she moved to the UK from the Soviet Union when she was 12 and worked in industry for many years, before deciding that she wanted to set up a lab to find out what optical fibres were capable of: just how much data could they transport, and how fast? Producer: Anna Buckley

Sir Peter Ratcliffe, Director of Clinical Research at the Francis Crick Institute, as well as Director of Oxford University’s Target Discovery Institute – has dedicated his life to understanding the body’s molecular-level response to low oxygen levels, or ‘hypoxia’. He received the 2019 Nobel prize for Physiology or Medicine, along with two Americans, William Kaelin of Harvard and Gregg Semenza of Johns Hopkins, for successfully tackling one of physiology’s greatest puzzles - how our bodies sense and adapt so quickly to a lack of oxygen, at high altitude for example, or during sudden exercise. He talks to Jim about how his early medical career led him into a deeply unfashionable area of medicine that would solve how and why our bodies are so clever at being able to fine tune themselves to keep functioning under a range of conditions. His early ground breaking discoveries may have been initially turned down by a major scientific journal, but he would go on to pave the way for promising new strategies to fight anaemia and many other challenging diseases, most notably cancer. Producer Adrian Washbourne

Peter Fonagy arrived in the UK from Hungary aged 15, not speaking a word of English. His family was in Paris. He was bullied at school, failed every exam and thought of ending his life. Therapy saved him, he says. Years later, he trained to be a clinical psychologist and then a psychoanalyst. His research on attachment styles between a mother and her baby (which can be healthy, anxious or avoidant) was ground breaking. He went on to show that the human need to be understood runs very deep indeed. The ability to ‘mentalise’ (to say that we’re feeling angry rather than being angry, for example) enables us to understand our own thoughts and feelings. And, Peter believes, it forms the cornerstone of good mental health. He pioneered a new way of treating people with borderline personality disorder which he called mentalisation based treatment, or MBT. Shocked to discover that such a simple approach was so effective, he set up randomised control trials to prove the effectiveness of this new approach to mental health care. The results were a revelation and it led to a revolution in mental health care for patients with a wide range of mental health problems, from borderline personality disorder to drug dependency, eating disorders and psychosis. Producer: Anna Buckley

Susie was dinosaur-mad as a child. But unlike most children, she never grew out of her obsession. She tells Jim about an exciting new stegosaur find in the Atlas Mountains in Morocco and describes the time she spent dinosaur hunting (with a toddler in tow) in the Morrison Formation in the American Mid-West: a place where there are thought to be enough dinosaur remains to keep a thousand paleontologists happy for a thousand years. She is at her happiest out in the field, with a hammer and a notebook, studying rocks and looking for dinosaur remains. We tend to lump dinosaurs together as though they all roamed the earth at the same time which is silly - given that they had the run of the place for nearly two hundred million years. Susie wants to sort out exactly which dinosaurs lived when. Although she warns, the fossil record is woefully incomplete. We will probably only ever know about 1% of what there is to know about all the dinosaurs that ever lived. Producer: Anna Buckley

Patricia Wiltshire grew up in a mining village in South Wales, left home when she was 17 and worked for many years, first as a medical technician and then as a business secretary (a profession her first husband considered to be more ladylike). When she was studying botany A level at evening classes, her teacher encouraged her to apply for university as a mature student. (She would never have considered it otherwise). And so began her career as a palynologist (studying pollen). She worked for many years reconstructing ancient environments on archaeological sites. But a phone call from a police detective led to a dramatic change of direction, when she was in her fifties. Since then, Pat has been involved in some of the most high-profile murder cases in Britain, including the murder of two ten year old girls in Soham in Cambridgeshire in 2002. She tells Jim Al-Khalili how she pioneered the use of pollen as evidence in criminal cases. Studying spores taken from suspects and victims, she can establish who’s been where and when. Her life, she says, has been 'a mess' but, on many occasions, the pollen she has gathered and analysed has helped to see that justice has been done. Producer: Anna Buckley

Elizabeth Fisher, Professor of Neurogenetics at University College London, spent 13 years getting her idea – finding a new way of studying genetic disorders – to work. She began her research career at a time, in the 1980s, when there was an explosion of interest and effort in finding out what genes did what, and which of them were responsible for giving rise to the symptoms of various neurodegenerative conditions. Elizabeth has been particularly interested in those in which there are chromosomal abnormalities, like Down syndrome and Turner syndrome, as distinct from specific genetic disorders. Her work has helped in the understanding of what’s different about the genetic make-up of people with these conditions, and what new therapies might be developed in the future. Lizzie Fisher talks to Jim al-Khalili about how she was inspired to study genetics while standing on the red carpet, how she kept going during the 13 years it took to introduce human chromosomes into mice and why she's starting the process all over again.

In the 200th episode of The Life Scientific, Jim Al-Khalili finds out why Demis Hassabis wants to create artificial intelligence and use it to help humanity. Thinking about how to win at chess when he was a boy got Demis thinking about the process of thinking itself. Being able to program his first computer (a Sinclair Spectrum) felt miraculous. In computer chess, his two passions were combined. And a lifelong ambition to create artificial intelligence was born. Demis studied computer science at Cambridge and then worked in the computer games industry for many years. Games, he says, are the ideal testing ground for AI. Then, thinking memory and imagination were aspects of the human mind that would be a necessary part of any artificially intelligent system, he studied neuroscience for a PhD. He set up DeepMind in 2010 and pioneered a new approach to creating artificial intelligence, based on deep learning and built-in rewards for making good decisions. Four years later, DeepMind was sold to Google for £400 million. The company’s landmark creation, Alpha Go stunned the world when it defeated the world Go champion in South Korea in 2016. Their AI system, AlphaZero taught itself to play chess from scratch. After playing against itself for just four hours, it was the best chess computer in the world. (Humans had been defeated long ago). Many fear both the supreme intelligence and the stupidity of AI. Demis imagines a future in which computers and humans put their brains together to try and understand the world. His algorithms have inspired humans to raise their game, when playing Go and chess. Now, he hopes that AI might do the same for scientific research. Perhaps the next Nobel Prize will be shared between a human and AI? Producer: Anna Buckley

Not so long ago, all batteries were single use. And solar power was an emerging and expensive technology. Now, thanks to rechargeable batteries, we have mobile phones, laptops, electronic toys, cordless power tools and other portable electronic devices. And solar power is reducing our reliance on carbon-based fossil fuels. None of this would have been possible without a deep understanding of the chemistry of materials that have particular properties – the ability to turn sunlight into energy for example. Professor Saiful Islam of the University of Bath tells Jim Al-Khalili how ‘the Woodstock of physics’ got him excited about material science and how his research on the properties of materials is helping to power the 21st century with renewable energy and could dramatically reduce the cost of making solar panels. Producer: Anna Buckley

Neuroscientist Adrian Owen has spent much of his career exploring what he calls ‘the grey zone’, a realm of consciousness inhabited by people with severe brain injuries, who are aware yet unable to respond to those around them. It's this inability to respond which has led doctors to conclude that they are unaware. In the late 1990's, Adrian started to question the assumption that they lacked awareness and a chance discovery set him on a novel path of enquiry - could some of these patients be conscious or aware even though they don’t appear to be? His research has revealed that some are, and he’s pioneered techniques to help them to communicate with the outside world. This emerging field of science has implications, not only for patients but, for philosophy and the law. A Britain scientist, Adrian now runs a research programme at the Brain and Mind Institute at Western University in Canada, dedicated to reaching people in this ‘grey zone’. Producer: Beth Eastwood

Could viruses improve our health where antibiotics have failed? As a child, Martha Clokie spent a lot of time collecting seaweed on Scottish beaches. She loves plants and studied botany for many years. But mid-career, she learnt about all the viruses that exist in nature. We tend to focus on the viruses that make us ill but there are trillions of viruses on earth and in the ocean and most of them eat bacteria. When a virus destroys a bacteria that attacks our bodies, then it could be just what the doctor ordered. Our enemy’s enemy is our friend. Martha became interested in how these viruses - or bacteriophages as they’re known - might be used to treat disease. Before long, Martha had moved from studying African violets in Uganda to looking at stool samples under the microscope and asking fellow parents to donate their babies’ dirty nappies to her research. She spent many years looking for phages that attack the superbug C. difficile, which is responsible for a particularly nasty form of diarrhoea and results in tens of thousands of deaths every year. And she has shown, in animal models at least, that these phages could succeed where antibiotics have failed. Producer: Anna Buckley

Anne Magurran started her career as an ecologist counting moths in an ancient woodland in northern Ireland in the 1970s, when the study of biological diversity was a very young science. Later she studied piranas in a flooded forest in the Amazon. Turning descriptions of the natural world into meaningful statistics is a challenge and Anne has pioneered the measurement of bio-diversity. It’s like an optical illusion, she says. The more you think about bio-diversity the more difficult it is to define. After a bout of meningitis in 2007, she set up BioTime, a global open access database to monitor changes in bio-diversity over time and is concerned about ‘the shopping mall effect’. Just as high streets are losing their distinctive shops and becoming dominated by the same chain stores, so biological communities in different parts of the world that once looked very different are now starting to look the same.

How do you tell if someone is lying? When Richard Wiseman, Professor of the Public Understanding of Psychology at the University of Hertfordshire, conducted a nationwide experiment to identify the tell-tale signs, the results were surprising. If you want to spot a liar, don’t look at them. Listen to what they say and how they say it. in If you want to distinguish fact from fiction, radio, not TV or video is your friend. Visual cues distract us from what is being said and good liars can control their body language more easily than their voice. Depressingly, Richard has also shown that our nearest and dearest are the most able to deceive us. Richard is a rare breed: a scientist who is also a practising magician. By the age of 17 he was performing magic tricks at children’s parties and a member of the exclusive Magic Circle. He chose to study psychology to try and understand why we believe the unbelievable and spent many years doing research on the paranormal: studying séances, haunted places and extra sensory perception. Could a belief in the paranormal be the price we pay for scientific discovery, he wonders? Jim Al-Khalili talks to Richard about his magical Life Scientific and finds out more about his work on lying, ESP and luck. Are some people born lucky or is it a mind-set that can be learnt? Producer: Anna Buckley

Ebola, Zika, Sars, Mers - rarely a week goes by without a deadly virus stealing the headlines. For Jonathan Ball, getting to know a virus at its most basic level is crucial to mounting a defence. As the son of a coal miner, who grew up in a mining village in the 1970s, a future in academic research studying deadly viruses wasn’t really on the agenda. Yet his work has led him to the forefront of scientific research to find the antibodies that can protect us from some of the nastiest diseases known to humankind. As Professor of Virology at Nottingham University, he’s interested in how a virus evolves and mutates, as it moves from person to person, so that he can pinpoint chinks in its armour to find a way to disable it. However, there are occupational hazards to his chosen field of work. Just when his own research was starting to show promise, another team pipped him to the post! Yet, ever the optimist, he believes this just adds to the excitement. Producer: Beth Eastwood

Maintaining friendships is one of the most cognitively demanding things we do, according to Professor of Evolutionary Psychology Robin Dunbar. So why do we bother? Robin has spent his life trying to answer this deceptively simple question. For most of his twenties, he lived with a herd of five hundred gelada monkeys in the Ethiopian highlands. He studied their social behaviour and concluded that an ability to get on with each other was just as important as finding food, for the survival of the species. Animals that live in large groups are less likely to get eaten by predators. When funding for animal studies dried up in the 1980s, he turned his attention to humans. and discovered there’s an upper limit to the number of real friends we can have, both in the real world and on social media. Producer: Anna Buckley

Katherine Joy studies moon rock. She has studied lunar samples that were brought to earth by the Apollo missions (382kg in total) and hunted for lunar meteorites in Antarctica, camping on ice for weeks on end and travelling around on a skidoo. Working at the forefront of the second wave of lunar exploration, she studied remote sensing data from Europe’s first mission to the moon, Smart 1 which launched in 2003 and data from many subsequent missions. She tells Jim Al-Khalili why she believes the moon is the most exciting destination in our solar system and explains what it can tell us about the long history of planet earth. Beneath the magnificent desolation of the moon’s surface, multicoloured rocks contain vital clues about the history of our solar system. Every crater on the moon is evidence of a collision and the chemistry of these rocks tells us when these collisions took place. Katherine’s research supports the idea that a period known as the late heavy bombardment was a particularly turbulent time. Could the late heavy bombardment explain the origin of life on earth? Producer: Anna Buckley

When a skeleton was unearthed in 2012 from under the tarmac of a car park in Leicester, Turi King needed to gather irrefutable evidence to prove that this really was the body of Richard III, England's infamous medieval monarch. Under the microscope was not only the king's genetic identity, but his entire reputation. Was Richard a ruthless villain, as depicted by Shakespeare? Or did the incoming Tudors spread 'fake news' to besmirch his name? As Jim discovers, clues in his skeletal remains have helped to solve some of these mysteries, and reveal the real Richard III. When she was young, Turi King wanted to be the next Indiana Jones. Her love of archaeology led her to study genetics so she could use ancient DNA to solve historic mysteries. She tells Jim how genetic testing, of both the dead skeleton and his living relatives, provided the vital evidence they needed to identify Richard III. But first, she had to extract his DNA, by pulling out one of his teeth. Producer: Michelle Martin Main image: Turi King Credit: Jonathan Sisson

Ewine van Dishoeck has spent her life studying the space between the stars. Not so long ago, interstellar space was thought to be an empty, sterile void. The idea that there would be organic molecules in interstellar clouds was absurd. Ewine, however, has revealed that there are some astonishingly sophisticated organic molecules in space. The molecules that are needed to form the building blocks of life were formed long before planets emerged from these swirling clouds of interstellar dust. Jim talks to Ewine, winner of the 2018 Kavli Prize for Astrophysics, about quantum chemistry, astronomy and why we need to keep building telescopes. Do Ewine’s discoveries make it more likely that we will find life elsewhere in the universe? Producer: Anna Buckley Main Image: Ewine van Dishoeck receiving the Kavli Prize in astrophysics, 4 September 2018 in Oslo. Credit: Berit Roald / NTB SCANPIX / AFP) / Norway

A Professor of Marine Biology who was not particularly academic at school, Richard Thompson went to university after running his own business selling greetings cards for seven years. When the rest of the world was waking up to the harm caused to marine life by larger plastic items, such as plastic bags, he searched for tiny fragments of plastic, some no bigger than a human hair; and found them in oceans and on beaches all over the world. He has spent decades studying the harm these micro-plastics might cause to marine life and is concerned. His work on plastics in cosmetics led to a UK ban on micro-beads in shower gels and exfoliating scrubs. And he advised government to ban single use plastic bags from supermarkets. Rather than demonize plastic, however, he believes we need to learn to love it more. Often plastic it is the best material for the job. Now we need to make sure that all plastic products are designed so that they can be easily recycled at the end of their useful life. Producer: Anna Buckley

Dr Erica McAlister, of London's Natural History Museum, talks to Jim Al-Khalili about the beautiful world of flies and the 2.5 million specimens for which she is jointly responsible. According to Erica, a world without flies would be full of faeces and dead bodies. Unlike, for example, butterflies and moths, whose caterpillars spend their time devouring our crops and plants, fly larvae tend to help rid the world of waste materials and then, as adults, perform essential work as pollinators. Yet they are rather unloved by humans who tend to regard them as pests at best and disease vectors at worst. 2019 is international Year of the Fly, and dipterists and entomologists around the world are working to raise the profile of the many thousands of species so far known to science. Erica tells Jim about her work in the museum, cataloguing and identifying new species either sent in from other researchers or discovered by her and her colleagues on swashbuckling trips around the world. Modern gene sequencing techniques are revealing new chapters in the life histories of species, and her collection of 300 year old dead flies continues to expand our knowledge of how the world works. Perhaps in the future, she argues, we will all be eating pasta and bread made from fly-larvae protein, or using small tea-bag like packets of maggots in our wounds to clean out gangrenous infection. Producer: Alex Mansfield

When Sir Richard Peto began work with the late Richard Doll fifty years ago, the UK had the worst death rates from smoking in the world. Smoking was the cause of more than half of all premature deaths of British men. The fact that this country now boasts the biggest decrease in tobacco-linked mortality is in no doubt partly due to Doll and Peto's thirty year collaboration. Professor of Medical Statistics and Epidemiology at the University of Oxford and until last year co-director of the Clinical Trial Service Unit with Professor Sir Rory Collins, Richard Peto pioneered "big data", setting up enormous randomised clinical trials and then, in a novel approach, combining results in what became known as meta-analyses, amassing unequivocal evidence about how early death could be avoided. He showed how asprin could prevent heart attacks and how the oestrogen-blocking drug tamoxifen really did affect survival rates for breast cancer patients. Results on paper saves lives in the real world, he says, and he's famous for catchphrases like: "death in old age is inevitable, but death before old age is not" and "you can avoid more deaths by a moderate reduction of a big cause, than by a big reduction in a small cause" as well as "take the big numbers seriously". One of the world's leading epidemiologists, Richard Peto's landmark study with Alan Lopez at the World Health Organisation predicted that a billion people would die from diseases associated with tobacco this century, compared to a hundred million killed by tobacco in the 20th century. The chilling message galvanised governments around the world to adopt anti-smoking policies. And Professor Peto's studies about smoking cessation ("smoking kills, stopping works") provided the public health evidence needed to encourage smokers that, however long they had smoked for, it was always worth quitting. Producer: Fiona Hill

Pain, as we know, is highly personal. Some can cope with huge amounts, while others reel in agony over a seemingly minor injury. Though you might feel the stab of pain in your stubbed toe or sprained ankle, it is actually processed in the brain. That is where Irene Tracey, Nuffield Professor of Anaesthetic Science at Oxford University, has been focussing her attention. Known as the Queen of Pain, she has spent the past two decades unravelling the complexities of this puzzling sensation. She goes behind the scenes, as it were, of what happens when we feel pain - scanning the brains of her research subjects while subjecting them to a fair amount of burning, prodding and poking. Her work is transforming our understanding, revealing how our emotions influence our experience of pain, how chronic pain develops and even when consciousness is present in the brain. Producer: Beth Eastwood

Physicist, Paul Davies is interested in some of the biggest questions that we can ask. What is life? How did the universe begin? How will it end? And are we alone? His research has been broad and far-reaching, covering quantum mechanics, cosmology and black holes. In the 1980s he described the so-called Bunch-Davies vacuum - the quantum vacuum that existed just fractions of a second after the big bang - when particles were popping in and out of existence and nothing was stable. As the chair of SETI (the Search for Extra-Terrestrial Intelligence) Post Detection Task Group, he’s the person responsible for announcing to the world when we make contact with aliens. He’s now Regents Professor of Physics at Arizona State University in the American south west where he runs research groups studying the evolution of cancer and the origins of life. Paul Davies talks to Jim al-Khalili about how he applies the principles of physics to these big questions and about how he has worked closely with religious thinkers. Producer: Anna Buckley

Throughout the history of planet Earth, the element carbon has cycled between the atmosphere, the oceans and the biosphere. This natural cycle has maintained the amount of carbon dioxide in the atmosphere and has allowed life to exist for billions of years. Corinne Le Quéré is a climate scientist who keeps track of where the carbon comes from and where it goes – all on a truly global scale. Corinne Le Quéré is the founder of the Global Carbon Budget, which each year reports on where carbon dioxide is being emitted and where it is being absorbed around the world. More specifically, she studies the relationship between the carbon cycle and the earth’s climate, and how it is changing. Corinne is Professor of Climate Change Science at the University of East Anglia. After a degree in physics in her native Canada she became aware of the importance of how carbon moves around the planet and the way it controls the Earth’s climate. This took her to studying meteorology and oceanography and in particular a fascination with the role of the huge Southern Ocean in trapping and holding onto carbon. She talks to Jim al-Khalili about modelling how carbon moves around the earth and how she communicates the latest research to the public.

How insight with a stick and piece of string led to an engineering adventure taking in spacecraft, military guidance systems and the micro-mechanical devices we use every day in our computers and smartphones. Ken Gabriel now heads up a large non-profit engineering company, Draper, which cut its teeth building the guidance systems for the Apollo space missions, and is now involved in developing both driverless cars and drug production systems for personalised medicine. Ken himself has a career in what he might term ‘disruptive engineering’. His research married digital electronics with acoustics - and produced the microphones in our phones and computers. He has a strong track record in defence research and has also worked for Google, taking some of the military research methods into a civilian start up. This led to the development of a new type of modular mobile phone which has yet to go into production. He tells us why aiming for seemingly impossible goals is a good idea, and how a structured systems based approach can help channel engineering creativity.

When the first laser was built in 1960, it was an invention looking for an application. Science fiction found uses for these phenomenally powerful beams of light long before real world applications were developed. Think Star Wars light sabres and people being sliced in half. Today lasers are used for everything from hair removal to state of the art weapons. Working with her supervisor Gerard Mourou in the 1980s, the Canadian physicist, Donna Strickland found a way to make laser pulses that were thousands of times more powerful than anything that had been made before. These rapid bursts of intense light energy have revolutionised laser eye surgery and, it’s hoped, could open the doors to an exciting range of new applications from pushing old satellites out of earth’s orbit to treatments for deep brain tumours. Donna tells Jim Al-Khalili why she wanted to work with lasers and what it feels like to be the first woman to win a Nobel Prize for Physics in 55 years. Producer: Anna Buckley

Whether it’s a news story or television drama, human violence appals and fascinates in equal measure. Yet few of us choose to dwell on what preoccupies the mind of a perpetrator for long. Professor Gwen Adshead, however, thinks about little else. As a Forensic Psychotherapist, she works with some of the most vilified and rejected members of society. They are the violent offenders who are detained in prisons and in secure NHS hospitals, like Broadmoor, whose actions have been linked to their mental illness. Gwen has sought to understand the psychological mechanisms behind their violent behaviour so that she can help them. A pioneer in the field, she provides an environment in which men and women are encouraged to speak the unspeakable and think the unthinkable, in the hope that they will one day be able to change their minds. Producer: Beth Eastwood

In an astonishing story of a scientific discovery, Greg Winter tells Jim Al-Khalili how decades of curiosity-driven research led to a revolution in medicine. Forced to temporarily abandon his work in the lab when a road rage incident left him with a paralysed right arm, Greg Winter spent several months looking at the structure of proteins. Looking at the stunning computer graphics made the pain in his arm go away. It also led him to a Nobel Prize winning idea: to ‘humanise’ mouse antibodies. A visit to an old lady in hospital made Greg determined to put his research to good use. He fought hard to ensure open access to the technology he invented and set up a start up company to encourage the development of therapeutic drugs. It took years to persuade anyone to fund his Nobel Prize winning idea that led to the creation of an entirely new class of drugs, known as monoclonal antibodies. In 2018, the market for these drugs, which include Humira for rheumatoid arthritis and Herceptin for breast cancer, was worth $70 billion. Producer: Anna Buckley

Sue Black left home and school when she was 16. Aged 25, she attended an access course to get the qualifications she needed to go to university to study computer science. It was a bit lonely being the only student in a mini- skirt surrounded by a sea of suits, but she came top of the class nonetheless. She signed up to do a PhD (not really knowing what a PhD was) and worked on the ripple effect in software. What happens when you change one bit of code? Does it mess up everything else? A lot of new software is created by building on and adapting existing programmes so these are important questions to ask. In 2003 she embarked on a three year campaign to save Bletchley Park where ten thousand people built some of the first computers and cracked the Enigma code used by the Nazis during World War Two. More than half of the people who worked there were women. No-one had any previous experience of computers. And more than half a century on, there are fewer women working in tech than there were in the 1960s. Sue is determined to change this backwards step. Perhaps another Bletchley Park recruitment drive is needed to encourage more people, women in particular, to engage with tech and help to build our future? Producer: Anna Buckley

In an ideal (quantum) world, Jim Al-Khalili would be interviewing himself about his life as a scientist but since the production team can’t access a parallel universe, Adam Rutherford is stepping in to ask Jim questions in front of an audience at The Royal Society. Jim and his family left Iraq in 1979, two weeks before Saddam Hussein came to power, abandoning most of their possessions. Having grown up listening to the BBC World Service, he had to drop his ts to fit in at school in Portsmouth where he was one of just three boys in a class of more than a hundred girls. He specialised in nuclear physics and spent fifteen years in front of a computer screen trying to understand an exotic and ephemeral sub-atomic phenomenon known as the halo effect. His ‘little eureka moment’ came in 1996 when Jim discovered that, for the mathematics to add up, these halo nuclei had to be a lot bigger than anyone had thought. It isn’t going to lead to a new kind of non-stick frying pan any time soon but it was exciting, nonetheless. More recently he has become interested in quantum biology. It started as a hobby back in the 1990s when physicists were sceptical and many biologists were unconvinced. Since then evidence has been stacking up. Several studies suggest that lasting quantum mechanical effects could explain photosynthesis, for example. 'It maybe a red herring’ Jim admits but Jim and his team at the University of Surrey are determined to find out if the idea of quantum biology makes sense. Could life itself depend on quantum tunnelling and other bizarre features of the sub-atomic world? Download the special extended podcast to hear questions from past guests on The Life Scientific and some cheeky contributions from members of the Al-Khalili family. Producer: Anna Buckley

Jim Al-Khalili talks to astronomer Jocelyn Bell Burnell. Jocelyn Bell Burnell forged her own path through the male-dominated world of science - in the days when it was unusual enough for women to work, let alone make a discovery in astrophysics that was worthy of a Nobel Prize. As a 24-year old PhD student, Jocelyn spotted an anomaly on a graph buried within 100 feet of printed data from a radio telescope. Her curiosity about such a tiny detail led to one of the most important discoveries in 20th century astronomy - the discovery of pulsars - those dense cores of collapsed stars. It's a discovery which changed the way we see the universe, making the existence of black holes suddenly seem much more likely and providing further proof to Einstein's theory of gravity. Jocelyn Bell Burnell was made a Dame in 2008 and a year later became the first ever female President of the Institute of Physics. Producer: Anna Buckley.

Clive Oppenheimer has, more than once, been threatened with guns (a Life Scientific first?). He's dodged and ducked lava bombs and he's risked instant death in scorching and explosive eruptions. He studies volcanoes; science that by necessity, requires his presence at the volcanic hotspots of the world. It was at the lip of a bubbling lava crater on one of the earth's most active volcanoes, Mount Erebus in Antarctica, that he met the film and documentary maker Werner Herzog. The two became friends and went on to make a volcano movie together. Clive, who's Professor of Volcanology at the University of Cambridge, tells Jim academics and film makers share the same complementary skill set: thorough research, slick location recording and a familiarity with rejection as 9 out of 10 film pitches (or grant proposals) are turned down! As well as a forensic fascination with the dramatic impact of ancient and modern volcanism on the landscape, Clive discusses how multiple scientific disciplines are now needed to understand the complex historical, archaeological, climatological and environmental impacts of the earth's volcanic eruptions. He wades into the bitter academic row about what did it for the dinosaurs 65 million years ago: meteorite or volcanism? And he details the importance of Mount Pinatubo's 1991 eruption in the Philippines for our deeper understanding of anthropogenic climate change. Producer: Fiona Hill

Maggie Aderin-Pocock has been fascinated by space since she was a young child. When she was six years old she caught the bug when she saw a picture of an astronaut on the front of a book in her primary school library. As a teenager she built her own telescope. After studying physics and mechanical engineering, Maggie worked in industrial research before returning to her first love, astronomy, when she managed the building of an instrument on a giant telescope in Chile. Now, she spends her time presenting TV programmes, in particular the BBC’s Sky at Night, and inspiring the next generation of schoolchildren to become scientists. Maggie’s come a long way since her own childhood. Her parents separated when she was four years old, and their prolonged custody battle meant she attended 13 schools in as many years. In addition, she was diagnosed as dyslexic and put in remedial classes where she wasn't ever expected to achieve academically.

Alastair Hay, now Emeritus Professor of Environmental Toxicology at the University of Leeds, is a chemist who’s had a dual career as an academic researcher and an outspoken activist and campaigner. The common theme has been the application of his knowledge to how chemicals affect our lives, in the workplace and during conflicts. Alastair Hay is best known for his work to rid the world of chemical weapons, a concern about this horrific form of warfare that goes back to the use of Agent Orange in the Vietnam War. His work culminated in the Chemical Weapons Convention, which came into force in 1997, outlawing their production, stockpiling and use. He spent his childhood in Zimbabwe and returned to the UK when he won a scholarship from Shell to study chemistry in London in the late 1960s. After a spell working on the biochemistry of animals, including a stint at London Zoo where one of his more difficult jobs was taking blood from penguins, he moved on to studying the effects of chemicals on humans. Jim al-Khalili talks to Alastair Hay about his love of chemistry and his shock to see that chemical weapons are still being used over twenty years after the signing of the Convention.

How do you convince Formula One racing drivers that they are speeding round the race track at Le Mans when, in fact, they are sitting in a simulator in the McLaren offices in Woking? Apparently it’s all about getting the vibrations right. Racing drivers really do drive by the seat of their pants. They’re also highly attuned to the sound f the engine and instinctively associate different sounds with different speeds. When Caroline Hargrove started trying to build a driveable model of a Formula One car many thought it just wouldn’t be possible. Today, all the major manufacturers of Formula One cars use simulators to help them design faster cars and improve driver performance. Caroline talks to Jim Al-Khalili about how she stumbled upon a job in Formula One and stayed for twenty years. And why she now wants to build digital twins for human beings. Producer: Anna Buckley

When Michael Stratton was a young doctor he would diagnose cancer by studying tissue samples under a microscope. However, over the past 30 years he’s been advancing our understanding of this disease down at the level of the genes themselves, so that we are now able to read the DNA of a cancer. This had led to new diagnoses and treatments. Mike Stratton’s first foray into genetics culminated in the discovery of the BRCA 2, one of the main genes involved in hereditary breast cancer. Following this painstaking detective work he and the Institute for Cancer Research became embroiled in a patent dispute with his collaborators. And at the beginning of the 21st century, he set himself the hugely ambitious goal of identifying all the mutations in DNA that led to every type of cancer. His critics said it was a crazy idea, but Mike and his colleagues at the Sanger Centre, just outside Cambridge have done it.

Suzanne O'Sullivan has been described as “a detective of the mind”. She’s a neurologist who helps some patients with the strangest of symptoms, from so-called ‘Alice in Wonderland’ seizures to those suffering from temporary blindness or paralysis, and that turn out to originate in their subconscious minds. By the time these people get to see Dr Suzanne O’Sullivan they’ll often have been to many specialists, undergone a range of tests and given a variety of diagnoses. Suzanne’s an expert on epilepsy, and the unusual ways that seizures can manifest themselves, who currently works at University College Hospital in London and for the Epilepsy Society. As well as diagnosing and treating patients, Suzanne has also written books about some of her most memorable, and frankly bizarre, cases. Her first book, It’s All in Your Head, which won the Wellcome Book prize in 2016, describes many of her case studies involving patients whose illnesses are psychosomatic. But, she argues that this is an area of medicine that has not been studied deeply enough yet. After all, for the patients themselves, these debilitating symptoms are all too real.

For all his success as a Supervet on TV and as a pioneering orthopedic surgeon, Noel Fitzpatrick insists that his life has been full of failures. He didn’t enjoy studying for his specialist vet exams and spent ten years working as an actor before setting up his veterinary practice, Fitzpatrick Referrals. Determined to offer animals access to medical treatments and facilities that are more commonly reserved for humans, he has pioneered several new surgical procedures for small animals, specialising in spinal injuries and creating bionic limbs. The prosthetic leg he made for a German shepherd dog Storm was the first of its kind, inspired by the method that was used to rebuild the arm of one of the victims of the 7/7 bombing in London. And he built the world’s first prosthetic paws for a cat called Oscar whose feet had been crushed by a combine harvester. Now he’s on a mission to break down the barriers between human and veterinary medicine so that both animals and humans can benefit from cutting edge research, without the need to do experiments on animals. Producer: Anna Buckley

An ecologist who fell in love with computing, Jacqueline McGlade pioneered the use of satellites study the state of the global environment. Today thanks to programmes like Google Earth, we can see the surface of the earth in great detail. But when Jacqueline was a student, earth observation satellites were used for weather forecasting and not much else. Early in her career, she used satellite images to study fish populations, thinking it would be useful to know not only how many fish were in the sea but where they were likely to be. Few believed such an ambitious undertaking would be possible but, after a spell in Silicon Valley, Jacqueline found a way. The moving maps she created changed the way oceanographers and fishermen viewed the sea. In the early 1980s, she started trying to model the global climate using some of the earliest supercomputers and a roomful of un-networked PCs. As Executive Director of the European Environment Agency, she introduced monitoring systems for a range of environmental indicators and insisted that the information provided by Europe’s first earth observation satellite should be made available to everyone for free. She retired from her latest job, as chief scientist to the United Nations Environment Programme last year and now lives in a mud hut in the Masai Mara, having married a Masai chief. Producer: Anna Buckley

Professor Rachel Mills is a marine geochemist who studies the sea floor and hydrothermal vents, where water erupts from the earth's crust at 360 degrees. The thick plumes emit many metals such as copper, gold, iron and rare earth minerals that are deposited on the sea bed. Rachel's career has taken her all over the world and 4km deep under the ocean in small submersibles. These journeys are exciting and terrifying as samples are taken to understand how the metals travel many thousands of miles. The metals are involved in creating nutrients that supply the ocean's food chain and control carbon uptake. There is also a lot of interest in mining the valuable deposits but can this be done without upsetting the ocean's eco-system?

Frank Close is a theoretical particle physicist and a pioneer of popular writing about physics. His first book aimed at a non-specialist audience, The Cosmic Onion, was published 35 years ago. His latest, Half Life, is the story of physicist and spy, Bruno Pontecorvo. Frank has also had a distinguished research career studying the fundamental structure of matter. It was during his PhD in the late 60s that quarks were discovered. These are the fundamental entities we now know make up particles such as protons and neutrons, which in turn make up the nuclei of atoms, and therefore all of us and everything around us. Frank Close went on to make a name for himself studying what holds the quarks together inside matter. Among his many best-selling books was his thorough account of the controversial claims about the discovery of cold fusion - the idea of unlimited fusion energy in a test tube - and which brought the remarkable story to the world's attention in his book Too Hot to Handle. Frank has spent most of his working life around the Thames Valley - at the Rutherford Appleton Labs, and now at the University of Oxford where is an emeritus professor of physics. In front of an audience at the Cheltenham Science Festival Jim al-Khalili discusses physics and writing with Frank Close.

Traditional descriptions of the human immune system bristle with military analogies. There are "lines of defence" against "enemy invaders"; "border guards" at "strategic points. And when barriers are breached, there's "a call to arms". That's before you mention Natural Killer Cells. But Professor of Immunology and Public Engagement at the University of Manchester, Sheena Cruickshank, tells Jim that as well as the war-like descriptions, our immune system is now being understood in terms of its capacity for diplomacy too. Jaw-jaw as well as War-war. Our immune system has to know when to tolerate the trillions of microbes that live on us and in us, to hold fire but also to know when full-scale immune activation is required. Central to Sheena's research is what's behind the switch from "watch and wait" to "attack mode" at key barrier sites in our bodies. Her aim is to find tools that will help diagnose and manage chronic inflammatory diseases and beyond that, to identify ways to strengthen peoples' own immunity and ultimately make them better. But she's always wanted science to have a strong presence outside of the laboratory and she believes strongly that researchers have a duty to reach out beyond their institution to the community about their work. If they do that, she tells Jim, everybody benefits and the science too, will be enriched. Producer: Fiona Hill.

John Crawshaw Taylor is a prolific inventor who specialises in designing and manufacturing thermostatic controls. His ingenious integrated control system is found in in one billion electric kettles worldwide, enabling kettles to switch off automatically when the water boils, stopping the element from boiling dry and preventing plastic kettles from catching fire under a worst case scenario. 600 million of his safety controls for the small electric motors have been sold to date, and are used mainly to prevent the motor in windscreens wipers from overheating. He talks to Jim Al-Khalili about his struggle with severe dyslexia at school, the art of inventing and why he doesn't believe in selling an idea. Producer: Anna Buckley.

Dr Catherine Hobaiter studies how apes communicate with each other. Although she's based at the University of St Andrews in Scotland, she spends a lot of her time in the forests of Uganda, at the Budongo Research Centre. There, she's endlessly fascinated by the behaviour of great apes. Cat Hobaiter tells Jim al-Khalili about the difficulties of carrying out research on chimps in the wild. It can take years to win the trust of the apes. She says that her approach is to adopt the attitude of a moody teenager. Look bored and the chimps will ignore her, but at the same time she is watching them closely. Her particular research area is in understanding not the sounds that apes make, but their gestures. From her observations she's found that they use around 80 different gestures - many of which are common, in the sense that they have the same meaning, across different species like chimps and bonobos. One thing she and her team hope to learn from these studies is how we humans have evolved spoken language.

As a girl, Caroline Dean would watch the cherry trees in her childhood garden unfurl their pink and white blossom and wonder how it was that they all flowered at exactly the same time. She tells Jim Al-Khalili that the flowering synchronicity she observed was to spark a life-long fascination with the timing mechanisms of plant reproduction, in particular with a process called vernalisation - how plants respond to extreme cold. Professor Dame Caroline Dean of the John Innes Centre in Norwich has focussed right down to the molecular level, homing in on the individual cells and genes that flip the flowering switch. For thirty years running her own lab Caroline has been asking (and answering) questions like why some plants need a period of cold before they can flower the following Spring, how plants know that the cold winter is really over and it's safe to flower and, when winter is so different around the globe, how do plants adapt? Her team focused in on one gene - with the snappy title of Flowering Locus C or FLC - and by delving into the world of epigenetic regulation, they uncovered the processes by which this gene was slowly turned off over winter, enabling the plant to flower the following spring. These ground-breaking discoveries have profound implications for human health and for food security. As Caroline tells Jim, the cellular memory system behind a plant gene flicked to the "off" position, is very similar to the switching and expression of genes that cause diseases like cancer in the human body. And as the climate warms and fluctuating temperatures affect our seasons, her work will deepen understanding of the molecular basis for flowering times - vital for farmers and plant breeders to adapt and protect our food supply. Producer: Fiona Hill.

Carlo Rovelli first became interested in the nature of time when he took LSD as a young man. Later he became curious about the world of the almost absurdly small, where time has no meaning and space is grainy. He took seven years to complete his undergraduate degree, having spent a lot of time protesting against the political establishment, falling in love and travelling. An extended hippy trip across north America was, he says, perhaps the most useful time of his life. All this rebelling taught him the value of seeing the world in a different way and the benefits of challenging the status quo. In the end he concluded it was easier, and more meaningful, to challenge Einstein's understanding of time, than it was to overthrow the government. He's a theoretical physicist who became a household name when his book Seven Brief Lessons on Physics became an unexpected international bestseller. His concise, and poetic, introduction to the laws and beauty of physics has sold more than a million copies. He's also a pioneer of one of the most exciting and profound ideas in modern physics, called loop quantum gravity. Early in his research career, he rejected more mainstream approaches to unifying physics (string theory for example) in favour of trying to understand the quantum nature of gravity. No one in Italy was working on this when he started to think about it in the early 1980s, and his PhD thesis was effectively unsupervised. The quantum world he studies is a billion trillion times smaller than the smallest atomic nucleus. When understood at this absurdly tiny scale, the world is 'a frenzied swarming of quanta that appear and disappear'. It makes no sense to talk about time as we understand it, or even things. The world is made up of a network of interacting events, 'kisses not stones', that are linked together by loops. And the evidence that's needed to prove the theory of loop quantum gravity will be found by studying the white holes that emerge when a black hole dies. Producer: Anna Buckley.

Callum Roberts, Professor of Marine Biology at the University of York, learnt to dive in a leaky wet suit in the North Sea when he was a boy. As a student, he was introduced to the extraordinary diversity of marine life on a coral reef in the Red Sea. His job was to count different species of fish but he also noticed several different species of fish working together to defend a common resource, lurid green algal lawns. Life on coral reef is notoriously competitive and collaboration on this scale was unexpected. In 1991 he wrote a ground-breaking paper about marine reserves showing how it is possible to have our fish and eat them. It was a radical suggestion at the time. Now many countries are committed to protecting 10% of the ocean in this way by 2020. Aiming to maintain fish stocks in their current state is, Callum says, ridiculously unambitious. On sabbatical at Harvard University, he started reading historical accounts by pirates, travellers and fishermen and his eyes were opened wider still to just how rich marine life could be. As early as the 12th century laws were being put in place to help preserve fishing stocks. Two hundred years ago off the coast of Britain a diverse array of sea fans and sponges covered the sea floor. There were millions of oysters and scallops the size of dinner plates. Producer: Anna Buckley.

Stephen Reicher is a social psychologist at St Andrews University who has spent decades understanding how people behave when in a group. To do so, he's often had to immerse himself among the subjects of his studies, from the Bristol riots in 1980 to the millions of Hindu pilgrims who go to the Magh Mela. Stephen Reicher talks to Jim al-Khalili about the positive and the negative sides to a crowd and the role of a leader of a crowd. He explains how he gave up a place to read medicine, to the annoyance of his parents, to study psychology. Now, he says, his mother would be proud of him as he's publishing research on the health benefits of attending mass gatherings.

Next time you swear at the battery in your mobile phone, spare a thought for the chemist, Clare Grey. Having developed a new way of looking inside solids (using nuclear magnetic resonance), her interest in batteries was sparked by a man from Duracell who asked her a question at an academic conference, and charged up by some electrochemists she met playing squash. For the last twenty years she has sought to understand the precise chemistry of the rechargeable lithium ion battery. And her insights have led to some significant improvements. In 2015 she built a working prototype of a new kind of battery for electric cars, the lithium air battery. If this laboratory model can be made to run on air not oxygen, it could transform the future, by making electric cars more energy efficient and considerably cheaper. Clare talks to Jim Al-Khalili about the years she has spent studying rechargeable batteries, seeking to understand, very precisely, the chemical reactions that take place inside them; and how this kind of fundamental understanding can help us to make batteries that are fit for the 21st century. Producer: Anna Buckley.

Professor Sir John Burn, has made Newcastle on Tyne a centre for research on genetics and disease. He was one of the first British doctors to champion the study of genes in medicine back in the 1980s. More recently his research with families with a propensity to develop certain cancers has shown the benefits of taking aspirin as a prevention against the disease. John Burn was part of the team that set up the Centre for Life on derelict industrial land near the River Tyne, where the public can watch research in action. It now attracts a quarter of a million visitors each year to its public science centre. John Burn was knighted for services to medicine in 2010 and was one of first 20 'local heroes' to have a brass plaque on Newcastle Quayside in 2014, alongside Cardinal Hume, Alan Shearer and Ant and Dec.

What once took decades, now takes days, thanks to an astonishingly powerful new technique invented by Richard Henderson, winner of the 2017 Nobel Prize for Chemistry. Richard grew up in a remote village in the Scottish borders exploring the countryside and reading the weekly bundles of comics sent by his great aunt, as part of a care package for his family. When he started work at the Laboratory of Molecular Biology in Cambridge, a string of Nobel Prizes had been awarded for x-ray crystallography, a technique that had revealed the double helix structure of DNA, and the atomic structure of haemoglobin, vitamin B12 and insulin. But Richard decided to experiment with a radical new approach, using electrons not x-rays. After an early success in 1975, he spent the next 15 years trying to improve the resolution of electron crystallography and, in 1990, he managed to see in astonishing atomic detail how individual atoms were arranged within a particular biological molecule. Next, however, he decided that the future of microscopy lay in different direction and,despite the initial results being very blurry, he embraced a more direct approach to microscopy that involved flash freezing molecules to catch them, mid-movement, as they existed in nature. Undeterred by a steady stream of technical problems, Richard spent the next 17 years refining this new approach to microscopy convinced that it should outperform all the others and, in 2012, he was proved right. Cryo electron microscopy now enables us to see how the individual atoms are arranged within biological molecules that were previously opaque. We are seeing atomic structures that have never been seen before and, since these are the molecules that make life possible, knowing what they look like is worth millions to pharmaceutical companies trying to design drugs to activate or inhibit their action. Richard talks to Jim Al-Khalili about half a century of problem solving and the bold strategic decisions that led him to be awarded the 2017 Nobel Prize for Chemistry, together with Joaquim Frank and Jacques Dubochet. Producer: Anna Buckley.

2018 is having the worst flu season for seven years. Influenza continues to make a lot of us feel very ill, and it can of course be fatal. Wendy Barclay, Professor Virology at Imperial College London, has spent many years trying to learn everything she can about the way flu viruses behave. These microscopic infectious organisms are formidable foes - they mutate all the time, making it hard to predict which strain is going to be the one to make us sick and therefore to design effective vaccines against it. Jim al-Khalili talks to Wendy Barclay about how she uses genetics to understand how flu viruses mutate. She explains how she began her scientific career studying physical sciences but then became fascinated by viruses. Her first experience of working with viruses was when she found herself doing nasal swabs of snuffling volunteers when she did her PhD looking for a vaccine against the common cold.

Nothing annoys Eugenia Cheng more than the suggestion that there is no creativity in mathematics. Doing mathematics is not about being a human calculator, she says. She doesn't spend her time multiplying big numbers in her head. She sits in hotel bars drawing (mainly arrows) with a fine quill pen, thinking about how ideas from different areas of mathematics relate to one another and hoping to reveal a unifying, underlying logic to the whole of mathematics. Her area of research, Category Theory, makes algebra seem superficial. And if that makes your head hurt a little, don't worry. Feeling confused is an essential part of doing mathematics. 'You can't make progress without it' Eugenia says. Jim asks Eugenia what drove her to such a high level of abstraction and learns more about her mission to rid the world of maths phobia, by baking. Producer: Anna Buckley Photo credit: Paul Crisanti, PhotoGetGo.

When Eben Upton was in his twenties, he wanted to get children thinking about how computers think, to boost the number of people applying to read computer science at university. He dreamt of putting a chip in every classroom. The result was Raspberry Pi, a tiny gadget, little bigger than a credit card, that can be hooked up to any keyboard and monitor, to create a programmable PC. And it's cheap. Raspberry Pi Zero, sticker price just �5, was given away free with a computer magazine in 2015. Eben tells Jim how it all began, in his loft with soldering irons and post it notes, and how, by ruthlessly pursuing a philanthropic goal he became CEO of a highly successful business enterprise. Producer: Anna Buckley.

As a young man Adrian Thomas took to the skies in order to better understand the mechanics of flight. He's a paragliding champion and a Professor of Zoology who specialises in the dynamics of insect flight. On a typical day, he can be found inside a wind tunnel that's been custom-made to study insects instead of jumbo jets. Using lines of smoke and high speed video cameras, he measures exactly how different insects flap their wings. When he's not writing academic papers, he's inventing clever machines based on his insights into how nature achieves certain results. His latest project is a drone that's inspired by a dragonfly. This nimble robot can accelerate rapidly in any direction and, having flexible wings rather than rotary blades, it glides when the battery dies rather than dropping dangerously to the ground. He's also working on a wheelchair modelled on a spider and a boat with a fin rather than a propeller. Producer: Anna Buckley.

When Ellen Stofan was just four years old, she witnessed the worst rocket launch-pad disaster in NASA's history convinced that her father, (who was a rocket engineer) was on board. He wasn't. Nonetheless, for many years NASA was not her favourite place. In 2013, however, she became she became their chief scientist, a post she held for 4 years. Barak Obama dreamt of putting people on the red planet by 2032 and Ellen did everything she could to develop a realistic plan to make this happen. (A 2032 arrival is ambitious but NASA is considerably closer than it was before Ellen took charge of the science.) Her research career began studying radar data from a Soviet mission to Venus, trying to see beyond the thick toxic cloud that surrounds it. She wanted to understand how Venus evolved so very differently from its nearest neighbour, earth. She has also used radar data from satellites to study planet earth. And in 2008, was the lead author on a paper that revealed the extent of the lake on Saturn's moon, Titan. It contains hundreds of times more gas and liquid hydrocarbons than all the known oil and natural gas reserves on earth. Producer: Anna Buckley.