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Jean Perrin
Brownian Movement and Molecular Reality
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2446566Brownian Movement and Molecular Realityhttps://www.gandhi.com.mx/brownian-movement-and-molecular-reality-9780486174723/phttps://gandhi.vtexassets.com/arquivos/ids/3852024/f6e871c0-f17d-47bd-b33c-8d5cb7280389.jpg?v=638385973206870000598729MXNDover PublicationsInStock/Ebooks/<p>How do we know that molecules really exist? An important clue came from Brownian movement, a concept developed in 1827 by botanist Robert Brown, who noticed that tiny objects like pollen grains shook and moved erratically when viewed under a microscope. Nearly 80 years later, in 1905, Albert Einstein explained this "Brownian motion" as the result of bombardment by molecules. Einstein offered a quantitative explanation by mathematically estimating the average distance covered by the particles over time as a result of molecular bombardment. Four years later, Jean Baptiste Perrin wrote <em>Brownian Movement and Molecular Reality,</em> a work that explains his painstaking measurements of the displacements of particles of a resin suspended in water experiments that yielded average displacements in excellent accord with Einsteins theoretical prediction.<br />The studies of Einstein and Perrin provided some of the first concrete evidence for the existence of molecules. Perrin, whose name is familiar to all who employ his methods for calculations in molecular dynamics, received the 1926 Nobel Prize in physics. In this classic paper, he introduced the concept of Avogadros number, along with other groundbreaking work. Originally published in the French journal <em>Annates de chimie et de physique,</em> it was translated into English by Frederick Soddy to enduring influence and acclaim.</p>...2382666Brownian Movement and Molecular Reality598729https://www.gandhi.com.mx/brownian-movement-and-molecular-reality-9780486174723/phttps://gandhi.vtexassets.com/arquivos/ids/3852024/f6e871c0-f17d-47bd-b33c-8d5cb7280389.jpg?v=638385973206870000InStockMXN99999DIEbook20139780486174723_W3siaWQiOiI5MDcyZGRiNy0zMmQ2LTQ2NDItOWQ2NC0yNjhiODM1YmQyOGUiLCJsaXN0UHJpY2UiOjcwNiwiZGlzY291bnQiOjcxLCJzZWxsaW5nUHJpY2UiOjYzNSwiaW5jbHVkZXNUYXgiOnRydWUsInByaWNlVHlwZSI6Ildob2xlc2FsZSIsImN1cnJlbmN5IjoiTVhOIiwiZnJvbSI6IjIwMjQtMTEtMTRUMjA6MDA6MDBaIiwidG8iOiIyMDI0LTExLTMwVDIzOjU5OjU5WiIsInJlZ2lvbiI6Ik1YIiwiaXNQcmVvcmRlciI6ZmFsc2V9LHsiaWQiOiIwYmRmZGVlNC1mNWYxLTQ3NjAtOGYzNS1lYThiNzhhYWIxZTQiLCJsaXN0UHJpY2UiOjc1MCwiZGlzY291bnQiOjc1LCJzZWxsaW5nUHJpY2UiOjY3NSwiaW5jbHVkZXNUYXgiOnRydWUsInByaWNlVHlwZSI6Ildob2xlc2FsZSIsImN1cnJlbmN5IjoiTVhOIiwiZnJvbSI6IjIwMjQtMTItMDFUMDA6MDA6MDBaIiwicmVnaW9uIjoiTVgiLCJpc1ByZW9yZGVyIjpmYWxzZX1d9780486174723_<p>How do we know that molecules really exist? An important clue came from Brownian movement, a concept developed in 1827 by botanist Robert Brown, who noticed that tiny objects like pollen grains shook and moved erratically when viewed under a microscope. Nearly 80 years later, in 1905, Albert Einstein explained this Brownian motion as the result of bombardment by molecules. Einstein offered a quantitative explanation by mathematically estimating the average distance covered by the particles over time as a result of molecular bombardment. Four years later, Jean Baptiste Perrin wrote <em>Brownian Movement and Molecular Reality,</em> a work that explains his painstaking measurements of the displacements of particles of a resin suspended in water-experiments that yielded average displacements in excellent accord with Einsteins theoretical prediction.<br />The studies of Einstein and Perrin provided some of the first concrete evidence for the existence of molecules. Perrin, whose name is familiar to all who employ his methods for calculations in molecular dynamics, received the 1926 Nobel Prize in physics. In this classic paper, he introduced the concept of Avogadros number, along with other groundbreaking work. Originally published in the French journal <em>Annates de chimie et de physique,</em> it was translated into English by Frederick Soddy to enduring influence and acclaim.</p>...(*_*)9780486174723_<p>How do we know that molecules really exist? An important clue came from Brownian movement, a concept developed in 1827 by botanist Robert Brown, who noticed that tiny objects like pollen grains shook and moved erratically when viewed under a microscope. Nearly 80 years later, in 1905, Albert Einstein explained this "Brownian motion" as the result of bombardment by molecules. Einstein offered a quantitative explanation by mathematically estimating the average distance covered by the particles over time as a result of molecular bombardment. Four years later, Jean Baptiste Perrin wrote <em>Brownian Movement and Molecular Reality,</em> a work that explains his painstaking measurements of the displacements of particles of a resin suspended in water-experiments that yielded average displacements in excellent accord with Einsteins theoretical prediction.<br />The studies of Einstein and Perrin provided some of the first concrete evidence for the existence of molecules. Perrin, whose name is familiar to all who employ his methods for calculations in molecular dynamics, received the 1926 Nobel Prize in physics. In this classic paper, he introduced the concept of Avogadros number, along with other groundbreaking work. Originally published in the French journal <em>Annates de chimie et de physique,</em> it was translated into English by Frederick Soddy to enduring influence and acclaim.</p>...9780486174723_Dover Publicationslibro_electonico_ddd45db1-63ed-48a2-8589-e864bac613ab_9780486174723;9780486174723_9780486174723Jean PerrinInglésMéxicohttps://getbook.kobo.com/koboid-prod-public/ingrooves-epub-70c02f2a-241c-49fa-a973-f68848547080.epub2013-05-23T00:00:00+00:00Dover Publications