Podcasts about boyle's law

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BOYLE'S LAW was discussed and treated.

Spend any amount of time working in the air medical environment and you'll absolutely hear people talk about the gas laws.  In this episode, I discuss what I believe to be the 5 essential gas laws any air medical professional must understand to work in this industry. Listen in as we discuss Boyle's Law, Dalton's Law, Charles Law, Henry's Law and Fick's Law.

She's back at it again! Tune in as Laura studies lots and lots of water, clarifies some exceptions to Boyle's Law, lends out her laboratory and skills to assist other scientists, and finally scores a physics chair despite, y'know, men Laura Bassi (and husband):  Laura Bassi and Science in 18th Century Europe - The Extraordinary Life and Role of Italy's Pioneering Female Professor, by Monique Frize, 2013 (book) "Science as a Career in Enlightenment Italy: The Strategies of Laura Bassi"Author(s): Paula FindlenSource: Isis, Vol. 84, No. 3 (Sep., 1993), pp. 441-469 "The Desire to Contribute: An Eighteenth-Century Italian Woman of Science"Author(s): Gabriella Berti LoganSource: The American Historical Review, Vol. 99, No. 3 (Jun., 1994), pp. 785-812 a little more on Caldani/Fontana: Medicine and science in the life of Luigi Galvani (1737–1798), by Marco Bresadola, 1998 Vanadium oxide (exception to Wiedemann Franz rule): https://phys.org/news/2017-01-metal-electricity.html

A discussion on the relationship between pressure and volume of a gas.

Boyle’s Law describes the relationship between pressure and volume of a gas. Matt Wandell, a biologist at the California Academy of Sciences, demonstrates Boyle’s Law by placing a balloon in a small decompression chamber to simulate what happens to a fish’s swim bladder at different pressures. A swim bladder is a gas-filled organ in fish that helps them maintain their buoyancy. An animation in the video reveals how the gases inside the balloon behave in response to pressure change. This Science Spotlight is a companion video to Bringing Fish Up from the Deep and is part of our Engineering Is: Bringing Fish Up from the Deep e-book. The e-book explores the science and engineering principles behind the California Academy of Sciences’ portable decompression chamber, and includes videos, interactives and media making opportunities. You can find our other e-books at kqed.org/ebooks.

Melvyn Bragg and his guests discuss the life and work of Robert Boyle, a pioneering scientist and a founder member of the Royal Society. Born in Ireland in 1627, Boyle was one of the first natural philosophers to conduct rigorous experiments, laid the foundations of modern chemistry and derived Boyle's Law, describing the physical properties of gases. In addition to his experimental work he left a substantial body of writings about philosophy and religion; his piety was one of the most important factors in his intellectual activities, prompting a celebrated dispute with his contemporary Thomas Hobbes. With: Simon Schaffer Professor of the History of Science at the University of Cambridge Michael Hunter Emeritus Professor of History at Birkbeck College, University of London Anna Marie Roos Senior Lecturer in the History of Science and Medicine at the University of Lincoln Producer: Thomas Morris.

Melvyn Bragg and his guests discuss the life and work of Robert Boyle, a pioneering scientist and a founder member of the Royal Society. Born in Ireland in 1627, Boyle was one of the first natural philosophers to conduct rigorous experiments, laid the foundations of modern chemistry and derived Boyle's Law, describing the physical properties of gases. In addition to his experimental work he left a substantial body of writings about philosophy and religion; his piety was one of the most important factors in his intellectual activities, prompting a celebrated dispute with his contemporary Thomas Hobbes. With: Simon Schaffer Professor of the History of Science at the University of Cambridge Michael Hunter Emeritus Professor of History at Birkbeck College, University of London Anna Marie Roos Senior Lecturer in the History of Science and Medicine at the University of Lincoln Producer: Thomas Morris.

A Boyle's Law Problem presented by Dr. Paul McCord.

KEY CONCEPTS:Boyle's Law: Pressure and Volume inversely proportional when Temperature is constantCharles's Law: Volume and Temperature directly proportional when Pressure is constantGay-Lussac's Law: Pressure and Temperature directly proportional when Volume is constantCombined Gas Law: Combines ALL 3 equations into 1NOTE: Initial terms on left of equal sign and final terms on the right

Broadcast on 24th February 2011  IMAGE:  Experts estimate that fossil-fuel burning power plants, such as the one pictured here, a peat fired plant in Ireland at Shannonbridge, Co Offaly, lose up to 70 per cent of their energy through heat losses. New nano materials could change all that [Credit: Wikipedia]  WHAT'S IT ALL ABOUT? Genetics, past, present and future, explained by Ken Wolfe, Trinity College Dublin (TCD) head of the only Irish laboratory involved in The Human Genome Project.  THE QUESTION IS? We lose over 70 per cent of the energy - as heat - generated by fossil-fuel burning  power plants. Can nano materials improve things? We ask TCD nano researcher Jonathan Coleman.  WRITER'S ROOM Ireland's county Waterford has produced many of Ireland's most famous scientists, including Robert Boyle, of Boyle's Law fame, and Atom splitter, Ernest Walton. Author Donald Brady tells us more.  To contact the show email: sciencespinning@dublincityfm.ie For more about the Presenter & Producer, Seán Duke, click here.