Podcasts about with marcus

With Marcus still roaming the Virgil, Marion and Sam must watch each other’s backs to stay alive. But Sam’s instinct to play it safe runs afoul of Marion’s proactivity, as she decides that the only way to survive is to meet their problem head on.DOWN is a Definitely Human production. Visit our website to see full credits and check out our other shows. You can follow us on Twitter for updates, and support us on Patreon. See acast.com/privacy for privacy and opt-out information.

Inspired by Call Me Sugar and Call Me Sweetheart you can go right ahead and vote for Lacee in this years awards at https://www.surveymonkey.com/r/EPAwards (https://www.surveymonkey.com/r/EPAwards) in both the best cover and best BDSM categories. With Marcus losing his job, his and Sophie's finances are being crippled. With no work to be found, he has little option but to consider taking a step back into his past. But that means confronting a man he left behind, a man he had his first gay experience with. A lifestyle he never though he would return to again. How will Sophie react to thew thought of him going back to a past they both thought he had moved on from? Support this podcast

With Marcus kidnapped, the remaining Five Stars pursue Sebastian, a member of the Knights of Altaea, a liaison with the Thieves Guild, and Haleen's Ex-boyfriend. 

With Marcus away, Nick takes the opportunity to review one of his favourite films of the year so far: the coming-of-age comedy Booksmart, which is newly available to rent and own. Follow us on Twitter @sunshinecinemax TRAILER: Booksmart: https://www.youtube.com/watch?v=tX2MvB0kyA0 ---------------------------------- Copyright Sunshine Hospital Radio 2019. For more information on Sunshine Hospital Radio visit www.sunshinehospitalradio.co.uk Instrumental tracks by Joe Perkins Music. https://www.joeperkins.co.uk/

With Marcus being sidelined by man-flu, Andy joins Chris in giving a bumper AFL wrap, Fedex Golf playoffs, the life-saving Halo device in F1 and much more.

With Marcus back from his near death man flu outbreak, the boys get back to talking footy, The Open, the outcome of the basketbrawl in Philippines and against Chris' better judgement, we talk soccer.

The two-day Depth of Field Conference, hosted by B&H, was an impressive gathering of wedding and portrait photographers, each sharing their unique talents, styles, and techniques with a receptive crowd.  We had our microphones ready to speak with some of the photographers before and after their presentations, and offer here our conversations with four exceptional photographers. We chose these four not only because their work is impeccable, but because they possess distinct views on the aesthetics and business of wedding photography. We start with Andy Marcus, of Fred Marcus Studios, one of the preëminent wedding-photography studios in New York, whose clientele includes celebrities, CEOs—and even Presidents and their daughters. With Marcus, we discuss keeping a family business running across three generations, how to work huge weddings, keeping A-list clients satisfied, and the importance of consistency. Next, we are joined by Sara France, of France Photographers, who has taken her business from a “girl with a camera” to a full-service studio with branches in California, Texas, and Hawaii. We speak about how to expand your business across states, the advantages of a woman-run enterprise, and how to best utilize the “blue hour.” France is Sony’s most recent “Artisan of Imagery,” so we also speak about her use of the Sony Alpha series cameras and continuous lighting. After a break, we are joined by Laurent Martin of Helena & Laurent Photography, a Bay Area-based husband-and-wife team who create straight-up gorgeous wedding photos. With Laurent, we discuss presets, using natural light, the joys of the wedding day, and how to embrace the chaos that comes with those joys. The success of this duo is seen in their ability to work together seamlessly, find the magical in small moments, and the lushness of their final product. Finally, we speak with Sal Cincotta, a St. Louis-based photographer whose list of accomplishments as a wedding photographer would take a second page to list. He and his team work throughout the country, and he is also an in-demand author and educator and expert on all forms of lighting. He speaks with us about the importance of constantly improving your craft and finding the time to do so. Despite the varied approaches to wedding photography offered by each of our guests, one theme reoccurred in each of the conversations: the need to use your photography to tell the story of each wedding. Guests: Andy Marcus, Sara France, Laurent Martin, Sal Cincotta Photograph ©Fred Marcus Studio

There's a reason why rantey (a colloquialism on rant) rhymes with Viney and that reason is explored in this episode of Lower Your Expectations as Matt rants over the cinema patrons who enthusiastically chomp on snacks during film screenings. With Marcus being a big advocate for the cinema salted popcorn the debate raged as fiercely as those held in parliament and it will be remembered by the masses for what could be centuries. Elsewhere festival season is just around the corner and the boys are here to pass on a few of their tips and tricks so that you can get the best out of your time spent in a muddy field!Subscribe on iTunes: iTunes.com/LowerYourExpectationsSubscribe on Android: SubscribeOnAndroid.com/MarcusButler.net/rssSubscribe to Marcus on YouTube: YouTube.com/MarcusButlerFollow @MarcusButler & @MattViney12 wherever you can find us!Big Question: https://www.mirror.co.uk/news/weird-news/game-thrones-star-secretly-reviews-12332161 See acast.com/privacy for privacy and opt-out information.

In a programme first broadcast in 2017, Melvyn Bragg and guests discuss Gauss (1777-1855), widely viewed as one of the greatest mathematicians of all time. He was a child prodigy, correcting his father's accounts before he was 3, dumbfounding his teachers with the speed of his mental arithmetic, and gaining a wealthy patron who supported his education. He wrote on number theory when he was 21, with his Disquisitiones Arithmeticae, which has influenced developments since. Among his achievements, he was the first to work out how to make a 17-sided polygon, he predicted the orbit of the minor planet Ceres, rediscovering it, he found a way of sending signals along a wire, using electromagnetism, the first electromagnetic telegraph, and he advanced the understanding of parallel lines on curved surfaces. With Marcus du Sautoy Professor of Mathematics and Simonyi Professor for the Public Understanding of Science at the University of Oxford Colva Roney-Dougal Reader in Pure Mathematics at the University of St Andrews And Nick Evans Professor of Theoretical Physics at the University of Southampton Producer: Simon Tillotson.

In a programme first broadcast in 2017, Melvyn Bragg and guests discuss Gauss (1777-1855), widely viewed as one of the greatest mathematicians of all time. He was a child prodigy, correcting his father's accounts before he was 3, dumbfounding his teachers with the speed of his mental arithmetic, and gaining a wealthy patron who supported his education. He wrote on number theory when he was 21, with his Disquisitiones Arithmeticae, which has influenced developments since. Among his achievements, he was the first to work out how to make a 17-sided polygon, he predicted the orbit of the minor planet Ceres, rediscovering it, he found a way of sending signals along a wire, using electromagnetism, the first electromagnetic telegraph, and he advanced the understanding of parallel lines on curved surfaces. With Marcus du Sautoy Professor of Mathematics and Simonyi Professor for the Public Understanding of Science at the University of Oxford Colva Roney-Dougal Reader in Pure Mathematics at the University of St Andrews And Nick Evans Professor of Theoretical Physics at the University of Southampton Producer: Simon Tillotson.

After an hilarious prank, the host tries to put a show together under immense pressure. Plus, another game of 'Puck, Carry, Drill'. With Marcus, Gus, Saquib, & host Luke.

Will Johnson is this week's guest. With Marcus, they talk about The Mike O'Meara Show, Rob and Joe Show, and The Tony Perkins Show featuring Gary Stein. Mike is back from The Masters at Augusta and has some interesting stories to share. Oscar is at it again with the cat and insight into another community. Rob and Joe discuss the difficulties in making jokes and more about the upcoming live show. Janis Ian is the guest of The Tony Perkins Show. Tony and Gary talk with Janis about her new collaboration with Gary's wife, Sarah. Sarah Partridge has released a great new album called Bright Lights & Promises Redefining Janis Ian. They do some new songs and Sarah gives her unique take to Janis' work. Hear how you can win a copy of this new album. 

In this weeks episode... umm. With Marcus, Matt, Max, & host Benny

Melvyn Bragg and guests discuss Zeno of Elea, a pre-Socratic philosopher from c490-430 BC whose paradoxes were described by Bertrand Russell as "immeasurably subtle and profound." The best known argue against motion, such as that of an arrow in flight which is at a series of different points but moving at none of them, or that of Achilles who, despite being the faster runner, will never catch up with a tortoise with a head start. Aristotle and Aquinas engaged with these, as did Russell, yet it is still debatable whether Zeno's Paradoxes have been resolved. With Marcus du Sautoy Professor of Mathematics and Simonyi Professor for the Public Understanding of Science at the University of Oxford Barbara Sattler Lecturer in Philosophy at the University of St Andrews and James Warren Reader in Ancient Philosophy at the University of Cambridge Producer: Simon Tillotson

Melvyn Bragg and guests discuss Zeno of Elea, a pre-Socratic philosopher from c490-430 BC whose paradoxes were described by Bertrand Russell as "immeasurably subtle and profound." The best known argue against motion, such as that of an arrow in flight which is at a series of different points but moving at none of them, or that of Achilles who, despite being the faster runner, will never catch up with a tortoise with a head start. Aristotle and Aquinas engaged with these, as did Russell, yet it is still debatable whether Zeno's Paradoxes have been resolved. With Marcus du Sautoy Professor of Mathematics and Simonyi Professor for the Public Understanding of Science at the University of Oxford Barbara Sattler Lecturer in Philosophy at the University of St Andrews and James Warren Reader in Ancient Philosophy at the University of Cambridge Producer: Simon Tillotson

In a programme first broadcast in 2016, Melvyn Bragg and guests discuss Zeno of Elea, a pre-Socratic philosopher from c490-430 BC whose paradoxes were described by Bertrand Russell as "immeasurably subtle and profound." The best known argue against motion, such as that of an arrow in flight which is at a series of different points but moving at none of them, or that of Achilles who, despite being the faster runner, will never catch up with a tortoise with a head start. Aristotle and Aquinas engaged with these, as did Russell, yet it is still debatable whether Zeno's Paradoxes have been resolved. With Marcus du Sautoy Professor of Mathematics and Simonyi Professor for the Public Understanding of Science at the University of Oxford Barbara Sattler Lecturer in Philosophy at the University of St Andrews and James Warren Reader in Ancient Philosophy at the University of Cambridge Producer: Simon Tillotson

With Marcus du Sautoy and Steven Poole. Presented by Sam Leith.

Melvyn Bragg and guests discuss Euclid's Elements, a mathematical text book attributed to Euclid and in use from its appearance in Alexandria, Egypt around 300 BC until modern times, dealing with geometry and number theory. It has been described as the most influential text book ever written. Einstein had a copy as a child, which he treasured, later saying "If Euclid failed to kindle your youthful enthusiasm, then you were not born to be a scientific thinker." With Marcus du Sautoy Professor of Mathematics and Simonyi Professor for the Public Understanding of Science at the University of Oxford Serafina Cuomo Reader in Roman History at Birkbeck University of London And June Barrow-Green Professor of the History of Mathematics at the Open University Producer: Simon Tillotson.

Melvyn Bragg and guests discuss Euclid's Elements, a mathematical text book attributed to Euclid and in use from its appearance in Alexandria, Egypt around 300 BC until modern times, dealing with geometry and number theory. It has been described as the most influential text book ever written. Einstein had a copy as a child, which he treasured, later saying "If Euclid failed to kindle your youthful enthusiasm, then you were not born to be a scientific thinker." With Marcus du Sautoy Professor of Mathematics and Simonyi Professor for the Public Understanding of Science at the University of Oxford Serafina Cuomo Reader in Roman History at Birkbeck University of London And June Barrow-Green Professor of the History of Mathematics at the Open University Producer: Simon Tillotson.

When you need to spice up your love life sometimes all it takes is a feather. And your entire family. With Marcus, Kristin, Gord, Rob, Megan, and Ron.

A man breaks free from his mundane life and malnourished children to create art. With Marcus, Ron, Rob, Gord, and Kristin.

Online hangouts and explaining technology to old people. Anyone want a Google sandwich? With Marcus, Kristin, Gord, Ron, and Rob.

Melvyn Bragg and his guests discuss Fermat's Last Theorem. In 1637 the French mathematician Pierre de Fermat scribbled a note in the margin of one of his books. He claimed to have proved a remarkable property of numbers, but gave no clue as to how he'd gone about it. "I have found a wonderful demonstration of this proposition," he wrote, "which this margin is too narrow to contain". Fermat's theorem became one of the most iconic problems in mathematics and for centuries mathematicians struggled in vain to work out what his proof had been. In the 19th century the French Academy of Sciences twice offered prize money and a gold medal to the person who could discover Fermat's proof; but it was not until 1995 that the puzzle was finally solved by the British mathematician Andrew Wiles. With: Marcus du Sautoy Professor of Mathematics & Simonyi Professor for the Public Understanding of Science at the University of Oxford Vicky Neale Fellow and Director of Studies in Mathematics at Murray Edwards College at the University of Cambridge Samir Siksek Professor at the Mathematics Institute at the University of Warwick. Producer: Natalia Fernandez.

Melvyn Bragg and his guests discuss randomness and pseudorandomness.Randomness is the mathematics of the unpredictable. Dice and roulette wheels produce random numbers: those which are unpredictable and display no pattern. But mathematicians also talk of 'pseudorandom' numbers - those which appear to be random but are not. In the last century random numbers have become enormously useful to statisticians, computer scientists and cryptographers. But true randomness is difficult to find, and mathematicians have devised many ingenious solutions to harness or simulate it. These range from the Premium Bonds computer ERNIE (whose name stands for Electronic Random Number Indicator Equipment) to new methods involving quantum physics.Digital computers are incapable of behaving in a truly random fashion - so instead mathematicians have taught them how to harness pseudorandomness. This technique is used daily by weather forecasters, statisticians, and computer chip designers - and it's thanks to pseudorandomness that secure credit card transactions are possible.With:Marcus du SautoyProfessor of Mathematics at the University of OxfordColva Roney-DougalSenior Lecturer in Pure Mathematics at the University of St AndrewsTimothy GowersRoyal Society Research Professor in Mathematics at the University of CambridgeProducer: Thomas Morris.

Melvyn Bragg and his guests discuss imaginary numbers. In the sixteenth century, a group of mathematicians in Bologna found a solution to a problem that had puzzled generations before them: a completely new kind of number. For more than a century this discovery was greeted with such scepticism that the great French thinker Rene Descartes dismissed it as an "imaginary" number.The name stuck - but so did the numbers. Long dismissed as useless or even fictitious, the imaginary number i and its properties were first explored seriously in the eighteenth century. Today the imaginary numbers are in daily use by engineers, and are vital to our understanding of phenomena including electricity and radio waves. With Marcus du SautoyProfessor of Mathematics at Oxford University Ian StewartEmeritus Professor of Mathematics at the University of WarwickCaroline SeriesProfessor of Mathematics at the University of WarwickProducer: Thomas Morris.

Melvyn Bragg and guests discuss an iconic piece of 20th century maths - Gödel’s Incompleteness Theorems. In 1900, in Paris, the International Congress of Mathematicians gathered in a mood of hope and fear. The edifice of maths was grand and ornate but its foundations, called axioms, had been shaken. They were deemed to be inconsistent and possibly paradoxical. At the conference, a young man called David Hilbert set out a plan to rebuild the foundations of maths – to make them consistent, all encompassing and without any hint of a paradox. Hilbert was one of the greatest mathematicians that ever lived, but his plan failed spectacularly because of Kurt Gödel. Gödel proved that there were some problems in maths that were impossible to solve, that the bright clear plain of mathematics was in fact a labyrinth filled with potential paradox. In doing so Gödel changed the way we understand what mathematics is and the implications of his work in physics and philosophy take us to the very edge of what we can know.With Marcus du Sautoy, Professor of Mathematics at Wadham College, University of Oxford; John Barrow, Professor of Mathematical Sciences at the University of Cambridge and Gresham Professor of Geometry and Philip Welch, Professor of Mathematical Logic at the University of Bristol.

Melvyn Bragg and guests discuss an iconic piece of 20th century maths - Gödel’s Incompleteness Theorems. In 1900, in Paris, the International Congress of Mathematicians gathered in a mood of hope and fear. The edifice of maths was grand and ornate but its foundations, called axioms, had been shaken. They were deemed to be inconsistent and possibly paradoxical. At the conference, a young man called David Hilbert set out a plan to rebuild the foundations of maths – to make them consistent, all encompassing and without any hint of a paradox. Hilbert was one of the greatest mathematicians that ever lived, but his plan failed spectacularly because of Kurt Gödel. Gödel proved that there were some problems in maths that were impossible to solve, that the bright clear plain of mathematics was in fact a labyrinth filled with potential paradox. In doing so Gödel changed the way we understand what mathematics is and the implications of his work in physics and philosophy take us to the very edge of what we can know.With Marcus du Sautoy, Professor of Mathematics at Wadham College, University of Oxford; John Barrow, Professor of Mathematical Sciences at the University of Cambridge and Gresham Professor of Geometry and Philip Welch, Professor of Mathematical Logic at the University of Bristol.

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

Melvyn Bragg and guests discuss the Fibonacci Sequence. Named after a 13th century Italian Mathematician, Leonardo of Pisa who was known as Fibonacci, each number in the sequence is created by adding the previous two together. It starts 1 1 2 3 5 8 13 21 and goes on forever. It may sound like a piece of mathematical arcania but in the 19th century it began to crop up time and again among the structures of the natural world, from the spirals on a pinecone to the petals on a sunflower.The Fibonacci sequence is also the mathematical first cousin of the Golden Ratio – a number that has haunted human culture for thousands of years. For some, the Golden ratio is the essence of beauty found in the proportions of the Parthenon and the paintings of Leonardo Da Vinci. With Marcus du Sautoy, Professor of Mathematics at the University of Oxford; Jackie Stedall, Junior Research Fellow in History of Mathematics at Queen’s College, Oxford; Ron Knott, Visiting Fellow in the Department of Mathematics at the University of Surrey

Melvyn Bragg and guests discuss the mathematical structures that lie within the heart of music. The seventeenth century philosopher Gottfried Leibniz wrote: 'Music is the pleasure the human mind experiences from counting without being aware that it is counting'. Mathematical structures have always provided the bare bones around which musicians compose music and have been vital to the very practical considerations of performance such as fingering and tempo. But there is a more complex area in the relationship between maths and music which is to do with the physics of sound: how pitch is determined by force or weight; how the complex arrangement of notes in relation to each other produces a scale; and how frequency determines the harmonics of sound. How were mathematical formulations used to create early music? Why do we in the West hear twelve notes in the octave when the Chinese hear fifty-three? What is the mathematical sequence that produces the so-called 'golden section'? And why was there a resurgence of the use of mathematics in composition in the twentieth century? With Marcus du Sautoy, Professor of Mathematics at the University of Oxford; Robin Wilson, Professor of Pure Mathematics at the Open University; Ruth Tatlow, Lecturer in Music Theory at the University of Stockholm.

Melvyn Bragg and guests discuss prime numbers: 2, 3, 5, 7, 11, 13, 17 … This sequence of numbers goes on literally forever. Recently, a team of researchers in Missouri successfully calculated the highest prime number - it has 9.1 million digits. For nearly two and a half thousand years, since Euclid first described the prime numbers in his book Elements, mathematicians have struggled to write a rule to predict what comes next in the sequence. The Swiss mathematician Leonhard Euler feared that it is "a mystery into which the human mind will never penetrate." But others have been more hopeful... In the middle of the nineteenth century, the German mathematician Bernhard Riemann discovered a connection between prime numbers and a complex mathematical function called the 'zeta function'. Ever since, mathematicians have laboured to prove the existence of this connection and reveal the rules behind the elusive sequence. What exactly are prime numbers and what secrets might they unlock about our understanding of atoms? What are the rules that may govern the prime sequence? And is it possible that the person who proves Riemann's Hypothesis may bring about the collapse of the world financial system? With Marcus du Sautoy, Professor of Mathematics and Fellow of Wadham College at the University of Oxford; Robin Wilson, Professor of Pure Mathematics at the Open University and Gresham Professor of Geometry; Jackie Stedall, Junior Research Fellow in the History of Mathematics at Queen's College, Oxford.