16:09 Posted: Aug 2008
Multimedia
Freeman Dyson: Let’s look for life in the outer solar system
19:11 Posted: Jul 2008
Probability
Duration: 45 minutes
First broadcast: Thursday 29 May 2008
Melvyn Bragg and guests discuss the strange mathematics of probability where heads or tails is a simple question with a far from simple answer.
Gambling may be as old as the hills but probability as a mathematical discipline is a relative youngster. Probability is the field of maths relating to random events and, although commonplace now, the idea that you can pluck a piece of maths from the tumbling of dice, the shuffling of cards or the odds in the local lottery is a relatively recent and powerful one. It may start with the toss of a coin but probability reaches into every area of the modern world, from the analysis of society to the decay of an atom.
With Marcus du Sautoy, Professor of Mathematics at the University of Oxford; Colva Roney-Dougal, Lecturer in Pure Mathematics at the University of St Andrews; Ian Stewart, Professor of Mathematics at the University of Warwick
Stephen Hawking: Questioning the universe
10:12 Posted: Apr 2008
Brian Greene: Making sense of string theory
19:06 Posted: Apr 2008
The Laws of Motion
Duration: 45 minutes
First broadcast: Thursday 03 April 2008
Melvyn Bragg and guests discuss Newton’s Laws of Motion. In 1687 Isaac Newton attempted to explain the movements of everything in the universe, from a pea rolling on a plate to the position of the planets. It was a brilliant, vaultingly ambitious and fiendishly complex task; it took him three sentences.
These are the three laws of motion with which Newton founded the discipline of classical mechanics and conjoined a series of concepts – inertia, acceleration, force, momentum and mass – by which we still describe the movement of things today. Newton’s laws have been refined over the years – most famously by Einstein – but they were still good enough, 282 years after they were published, to put Neil Armstrong on the Moon.
With Simon Schaffer, Professor in History and Philosophy of Science at the University of Cambridge and Fellow of Darwin College; Raymond Flood, University Lecturer in Computing Studies and Mathematics and Senior Tutor at Kellogg College, University of Oxford; Rob Iliffe, Professor of Intellectual History and History of Science at the University of Sussex
Neil Turok: My wish: Find the next Einstein in Africa
24:50 Posted: Mar 2008
Ada Lovelace
Duration: 45 minutes
First broadcast: Thursday 06 March 2008
Melvyn Bragg and guests discuss the 19th century mathematician Ada Lovelace. Deep in the heart of the Pentagon is a network of computers. They control the US military, the most powerful army on the planet, but they are controlled by a programming language called Ada. It’s named after Ada Lovelace, the allegedly hard drinking 19th century mathematician and daughter of Lord Byron. In her work with Charles Babbage on a steam driven calculating machine called the Difference Engine, Ada understood, perhaps before anyone else, what a computer might truly be. As such the Difference Engine is the spiritual ancestor of the modern computer.
Ada Lovelace has been called many things – the first computer programmer and a prophet of the computer age – but most poetically perhaps by Babbage himself as an ‘enchantress of numbers’.
With Patricia Fara, Senior Tutor at Clare College, Cambridge; Doron Swade, Visiting Professor in the History of Computing at Portsmouth University; John Fuegi, Visiting Professor in Biography at Kingston University.
The Multiverse
Duration: 45 minutes
First broadcast: Thursday 21 February 2008
Melvyn Bragg and guests will be leaving the studio, the planet and indeed, the universe to take a tour of the Multiverse.
If you look up the word ‘universe’ in the Oxford English Dictionary you will find the following definition:
“The whole of created or existing things regarded collectively; all things (including the earth, the heavens, and all the phenomena of space) considered as constituting a systematic whole.”
That sounds fairly comprehensive as a description of everything, but for an increasing number of physicists and cosmologists the universe is not enough. They talk of a multiverse – literally many universes – to explain aspects of their theory, the character of the universe and the riddle of our existence within it. Indeed, compared to the scope and complexity of the multiverse, the whole of our known reality may be as a speck of sand upon a beach.
The idea of a multiverse is still controversial, some argue that it isn’t even science, because it is based on an idea that we may never be able to prove or even see. But what might a multiverse be like, why are physicists and cosmologists increasingly interested in it and is it really scientific to discuss the existence of universes we may never know anything
With Martin Rees, President of the Royal Society and Professor of Cosmology and Astrophysics at the University of Cambridge; Fay Dowker, Reader in Theoretical Physics at Imperial College; Bernard Carr, Professor of Mathematics and Astronomy at Queen Mary, University of London