Posted on Feb 11, 2021
Meet Léon Foucault: Physicist Who Measured the Speed of Light
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Leon Foucault and the Rotation of the Earth Foucault Pendulum
Léon Foucault and the Rotation of the EarthFAIR USE STATEMENTThis video may contain copyrighted material the use of which has not been specifically authorize...
Thank you my friend SGT (Join to see) for making us aware that on February 11, 1868 French physicist whose pendulum proved that the Earth rotates Jean Bernard Léon Foucault died at the age of 48.
Léon Foucault and the Rotation of the Earth Foucault Pendulum
https://www.youtube.com/watch?v=zkJy0J_bRp0
Images:
1. Jean Bernard Léon Foucault photo by Berall & Cie
2. 1958 French 15 Franc stamp honoring Jean Bernard Léon Foucault.
3. Foucault's pendulum in the Panthéon, Paris
4. Grave of Jean Bernard Léon Foucault in Montmartre Cemetery
Background from {[https://mathshistory.st-andrews.ac.uk/Biographies/Foucault/]}
Born 18 September 1819; Paris, France
Died 11 February 1868; Paris, France
Summary
Léon Foucault was a French mathematician and astronomer who is best known for his invention of a pendulum which demonstrates the rotation of the earth.
Biography
Léon Foucault's father, Jean Léon Fortuné Foucault, was a publisher who had gained a fair reputation by publishing an excellent collection of volumes on the history of France. When Léon was young his father retired, since his health was rather poor, and the family moved from Paris to Nantes. However retirement did not result in any improvement in his father's health and he died in Nantes in 1829 when Léon was nine years old. His mother decided that they would return to Paris and from the age of ten Léon lived with his mother in a rather fine house on the junction of rue de Vangirard and rue d'Assas. The house is still there today and is marked by a commemorative plaque.
It was not only Léon's father who suffered from poor health, for Léon himself was a very frail child. He had one eye which was short-sighted and the other long-sighted. It gave him a rather awkward appearance and this was made worse by the fact that Léon became self-conscious about his appearance, tending to prefer being by himself. He was certainly given good educational opportunities by his mother who sent him to the Collège Stanislas but he did not seem to make the most of them. His teachers described him as lazy, he did not submit work on time, so that his mother had to employ tutors to educate him at home. Lissajous, who was about two and a half years younger than Foucault, was one of his few childhood friends. He wrote:-
Nothing about the boy announced that he would be illustrious some day; his health was delicate, his character mild, timid and not expansive. The frailty of his constitution and the slow way he worked made it impossible for him to study at college. He was only able to study successfully thanks to the help of dedicated tutors watched over by his mother.
Foucault did, however, make a good friend of one of the students at the Collège Stanislas, namely Hippolyte Fizeau.
If academic school work was not to Foucault's liking, he did begin to exhibit other talents. As a teenager he loved to construct toys and machines, some of which were really highly sophisticated such as a steam engine and a telegraph. His dexterity suggested to his mother than he would make a superb surgeon and so, having obtained his high school diploma, he entered medical school in Paris in 1839. At first he progressed well and his professor, Alfred Donné, was very pleased with his progress. However, on his first spell of hospital experience he saw some blood and fainted. After trying to overcome this problem, he realised that he would never be able to carry out medical duties and withdrew. Donné, however, wanted him to continue using his talents in the cause of medical science in a way that did not involve him coming in contact with patients, so he employed him as his assistant.
Just before starting work as Donné's assistant, Foucault had attended talks by Daguerre on his photographic methods. Foucault's friend Fizeau had been with him and the two experimented, improving the photographic process. Foucault combined his new photographic skills with his work for Donné and devised a method of taking photographs through a microscope. To do this he had to invent a powerful electric light source to illuminate the objects being photographed. In 1845 Foucault and Donné published A course of microscopy which contained 80 photographs of objects under a microscope.
Donné was the scientific editor of the Journal des Débats which was published daily. He retired from this position in 1845 handing over the task to Foucault. Bertrand in [2] writes about this task which Foucault carried out with remarkable success:-
At the age of 25, not having learnt anything at school nor from book, enthusiastic about science but not about study, Léon Foucault took on the task of making the work of scientists understandable to the public and of passing judgement on the value to the work of leading men of science. From the start he showed great subtlety, good judgement based on more prudence than would be expected. His first articles were remarkable; they were spiritual. He took his duties seriously. Launched, without any experience, into the highest level of science with all its confusion and problems, he was assured carrying out a role in which mediocrity would mean failure, with complete success.
... Always polite, yet seeking the truth, Foucault applied carefully considered judgements. Previously an unknown, this young man with no scientific publications nor known scientific discoveries, displayed a quiet authority and frankness which irritated many leading scientists.
Arago had learnt of Foucault's expertise with photography through a microscope on the publication of his book with Donné. He approached Foucault and Fizeau, whom he knew personally, in 1845 and asked if they could try to take photographs of the sun. They were successful in this and took the first ever photograph of the sun. It clearly shows a number of sunspots. Arago was delighted and saw the potential Foucault had to carry out other experiments for the Academy of Sciences. He next suggested that Foucault and Fizeau try to measure the speed of light in water. This was an experiment which Arago wanted to perform himself, but his failing eyesight meant that he could not undertake exacting experimental work himself. Shortly after beginning work using Arago's methods, Foucault and Fizeau had an argument. As a result they went their own ways, each attempting to carry out the experiment on their own.
Foucault now devised his own methods to approach the problem of measurement, building a steam engine to drive a spinning mirror. In April 1850 he showed that light travels slower in water than in air. This was in accordance with what the wave theory of light predicted, but contradicted what the corpuscular theory predicted. Foucault wrote [2]:-
I did not invent the spinning mirror, nor the achromatic lens, nor the network, nor the micrometer but I have had the good fortune to be able to put these instruments, devised by other scientists, together in such a way that I have solved a problem which was posed twelve years ago.
Foucault's next idea was that if he was able to design the support for a pendulum which allowed it to freely move in any direction without any resistance, then once set in motion it would retain its plane of swing in space while the Earth rotated beneath it. In January 1851 he succeeded in constructing such a pendulum in the basement of his house. It did indeed retain its position in space, demonstrating clearly for the first time that the Earth rotates. He told Arago of his achievement and Arago asked him to repeat it in the Paris Observatory. Every scientist in Paris received an invitation to view the pendulum in the Paris Observatory on 3 February 1851. The demonstration was a complete success. A paper by Foucault on his pendulum was read by Arago to the Academy of Sciences on the same day as the experiment was carried out in the Observatory. In the paper Foucault presented, without proof, his sine law:
T = 24/\sin qT=24/sinq
where TT is the time in hours taken for the pendulum to return to its original position and qq is the latitude at which the experiment is carried out. So at the poles it takes 24 hours to return to its original position while at the equator it does not rotate at all. Binet presented a full report to the Academy of Sciences giving the full mathematical justification for the sine law on 17 February. Plana presented a paper to the Academy of Sciences of Turin on Foucault's pendulum in March. Bertrand writes [2]:-
We say very clearly, for it is true, that the mathematicians had shown the direction; but we add, for it is just to do so, that they had not explored it. Poisson had, deplorably quickly, decided its was not worth considering; and it was Foucault, without and help or assistance, who was the first to propose it.
Foucault next invented the gyroscope, which he did to demonstrate in yet another way the motion of the Earth. Again the gyroscope remains fixed in space while the Earth moves. It was an invention which was of little significance in Foucault's time, but of course today we recognise its widespread use in airplanes, guiding of telescopes, the Hubble space telescope etc.
Political events in France now worked to Foucault's advantage. He was famous, but had no job or income other than as science editor of the Journal des Débats. On 2 December 1851 there was a coup d'état in France with Louis-Napoléon Bonaparte assuming absolute power and dissolving the National Assembly. Exactly one year later he became Emperor taking the title Napoleon III. If the scientific community in France was somewhat dismissive of Foucault, who had no proper scientific training, then the same could not be said for Napoleon III who was himself an amateur scientist. He greatly supported science in general and Foucault in particular so he arranged the post of Physicist Attached to the Imperial Observatory to be specially created for Foucault.
The director of the Imperial Observatory, as Napoleon III had renamed the Paris Observatory, was now Le Verrier. Soon Foucault was creating superb telescopes for the Observatory with many innovative features. He made many scientific discoveries and invented many other machines to assist the astronomers at the Observatory. An experiment he carried out to determine the speed of light was by far the most accurate which had been carried out up to that time and was correct to within half of one percent.
Foucault accompanied Le Verrier on an expedition to Spain in 1860 to observe the eclipse on 18 July. He took a photograph of the eclipse. Honours were now quickly given to him: Napoleon III made him an Officer Légion d'Honneur in 1862; he was elected to the Bureau des Longitudes (1862); he was elected a fellow of the Royal Society of London; also a member of the German Academy of Scientists Leopoldina; and finally in 1865 the French Academy of Sciences where he replaced Clapeyron.
By October 1867 Foucault began to feel numbness in his hands. The illness progressed rapidly despite the efforts of Foucault's mother to help her son recover. It is likely that the illness was the result of the chemicals, in particular mercury, that Foucault had experimented with all his life. Of course, as we noted at the beginning of this biography, Foucault's father died young so perhaps hereditary factors also played a part."
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Léon Foucault and the Rotation of the Earth Foucault Pendulum
https://www.youtube.com/watch?v=zkJy0J_bRp0
Images:
1. Jean Bernard Léon Foucault photo by Berall & Cie
2. 1958 French 15 Franc stamp honoring Jean Bernard Léon Foucault.
3. Foucault's pendulum in the Panthéon, Paris
4. Grave of Jean Bernard Léon Foucault in Montmartre Cemetery
Background from {[https://mathshistory.st-andrews.ac.uk/Biographies/Foucault/]}
Born 18 September 1819; Paris, France
Died 11 February 1868; Paris, France
Summary
Léon Foucault was a French mathematician and astronomer who is best known for his invention of a pendulum which demonstrates the rotation of the earth.
Biography
Léon Foucault's father, Jean Léon Fortuné Foucault, was a publisher who had gained a fair reputation by publishing an excellent collection of volumes on the history of France. When Léon was young his father retired, since his health was rather poor, and the family moved from Paris to Nantes. However retirement did not result in any improvement in his father's health and he died in Nantes in 1829 when Léon was nine years old. His mother decided that they would return to Paris and from the age of ten Léon lived with his mother in a rather fine house on the junction of rue de Vangirard and rue d'Assas. The house is still there today and is marked by a commemorative plaque.
It was not only Léon's father who suffered from poor health, for Léon himself was a very frail child. He had one eye which was short-sighted and the other long-sighted. It gave him a rather awkward appearance and this was made worse by the fact that Léon became self-conscious about his appearance, tending to prefer being by himself. He was certainly given good educational opportunities by his mother who sent him to the Collège Stanislas but he did not seem to make the most of them. His teachers described him as lazy, he did not submit work on time, so that his mother had to employ tutors to educate him at home. Lissajous, who was about two and a half years younger than Foucault, was one of his few childhood friends. He wrote:-
Nothing about the boy announced that he would be illustrious some day; his health was delicate, his character mild, timid and not expansive. The frailty of his constitution and the slow way he worked made it impossible for him to study at college. He was only able to study successfully thanks to the help of dedicated tutors watched over by his mother.
Foucault did, however, make a good friend of one of the students at the Collège Stanislas, namely Hippolyte Fizeau.
If academic school work was not to Foucault's liking, he did begin to exhibit other talents. As a teenager he loved to construct toys and machines, some of which were really highly sophisticated such as a steam engine and a telegraph. His dexterity suggested to his mother than he would make a superb surgeon and so, having obtained his high school diploma, he entered medical school in Paris in 1839. At first he progressed well and his professor, Alfred Donné, was very pleased with his progress. However, on his first spell of hospital experience he saw some blood and fainted. After trying to overcome this problem, he realised that he would never be able to carry out medical duties and withdrew. Donné, however, wanted him to continue using his talents in the cause of medical science in a way that did not involve him coming in contact with patients, so he employed him as his assistant.
Just before starting work as Donné's assistant, Foucault had attended talks by Daguerre on his photographic methods. Foucault's friend Fizeau had been with him and the two experimented, improving the photographic process. Foucault combined his new photographic skills with his work for Donné and devised a method of taking photographs through a microscope. To do this he had to invent a powerful electric light source to illuminate the objects being photographed. In 1845 Foucault and Donné published A course of microscopy which contained 80 photographs of objects under a microscope.
Donné was the scientific editor of the Journal des Débats which was published daily. He retired from this position in 1845 handing over the task to Foucault. Bertrand in [2] writes about this task which Foucault carried out with remarkable success:-
At the age of 25, not having learnt anything at school nor from book, enthusiastic about science but not about study, Léon Foucault took on the task of making the work of scientists understandable to the public and of passing judgement on the value to the work of leading men of science. From the start he showed great subtlety, good judgement based on more prudence than would be expected. His first articles were remarkable; they were spiritual. He took his duties seriously. Launched, without any experience, into the highest level of science with all its confusion and problems, he was assured carrying out a role in which mediocrity would mean failure, with complete success.
... Always polite, yet seeking the truth, Foucault applied carefully considered judgements. Previously an unknown, this young man with no scientific publications nor known scientific discoveries, displayed a quiet authority and frankness which irritated many leading scientists.
Arago had learnt of Foucault's expertise with photography through a microscope on the publication of his book with Donné. He approached Foucault and Fizeau, whom he knew personally, in 1845 and asked if they could try to take photographs of the sun. They were successful in this and took the first ever photograph of the sun. It clearly shows a number of sunspots. Arago was delighted and saw the potential Foucault had to carry out other experiments for the Academy of Sciences. He next suggested that Foucault and Fizeau try to measure the speed of light in water. This was an experiment which Arago wanted to perform himself, but his failing eyesight meant that he could not undertake exacting experimental work himself. Shortly after beginning work using Arago's methods, Foucault and Fizeau had an argument. As a result they went their own ways, each attempting to carry out the experiment on their own.
Foucault now devised his own methods to approach the problem of measurement, building a steam engine to drive a spinning mirror. In April 1850 he showed that light travels slower in water than in air. This was in accordance with what the wave theory of light predicted, but contradicted what the corpuscular theory predicted. Foucault wrote [2]:-
I did not invent the spinning mirror, nor the achromatic lens, nor the network, nor the micrometer but I have had the good fortune to be able to put these instruments, devised by other scientists, together in such a way that I have solved a problem which was posed twelve years ago.
Foucault's next idea was that if he was able to design the support for a pendulum which allowed it to freely move in any direction without any resistance, then once set in motion it would retain its plane of swing in space while the Earth rotated beneath it. In January 1851 he succeeded in constructing such a pendulum in the basement of his house. It did indeed retain its position in space, demonstrating clearly for the first time that the Earth rotates. He told Arago of his achievement and Arago asked him to repeat it in the Paris Observatory. Every scientist in Paris received an invitation to view the pendulum in the Paris Observatory on 3 February 1851. The demonstration was a complete success. A paper by Foucault on his pendulum was read by Arago to the Academy of Sciences on the same day as the experiment was carried out in the Observatory. In the paper Foucault presented, without proof, his sine law:
T = 24/\sin qT=24/sinq
where TT is the time in hours taken for the pendulum to return to its original position and qq is the latitude at which the experiment is carried out. So at the poles it takes 24 hours to return to its original position while at the equator it does not rotate at all. Binet presented a full report to the Academy of Sciences giving the full mathematical justification for the sine law on 17 February. Plana presented a paper to the Academy of Sciences of Turin on Foucault's pendulum in March. Bertrand writes [2]:-
We say very clearly, for it is true, that the mathematicians had shown the direction; but we add, for it is just to do so, that they had not explored it. Poisson had, deplorably quickly, decided its was not worth considering; and it was Foucault, without and help or assistance, who was the first to propose it.
Foucault next invented the gyroscope, which he did to demonstrate in yet another way the motion of the Earth. Again the gyroscope remains fixed in space while the Earth moves. It was an invention which was of little significance in Foucault's time, but of course today we recognise its widespread use in airplanes, guiding of telescopes, the Hubble space telescope etc.
Political events in France now worked to Foucault's advantage. He was famous, but had no job or income other than as science editor of the Journal des Débats. On 2 December 1851 there was a coup d'état in France with Louis-Napoléon Bonaparte assuming absolute power and dissolving the National Assembly. Exactly one year later he became Emperor taking the title Napoleon III. If the scientific community in France was somewhat dismissive of Foucault, who had no proper scientific training, then the same could not be said for Napoleon III who was himself an amateur scientist. He greatly supported science in general and Foucault in particular so he arranged the post of Physicist Attached to the Imperial Observatory to be specially created for Foucault.
The director of the Imperial Observatory, as Napoleon III had renamed the Paris Observatory, was now Le Verrier. Soon Foucault was creating superb telescopes for the Observatory with many innovative features. He made many scientific discoveries and invented many other machines to assist the astronomers at the Observatory. An experiment he carried out to determine the speed of light was by far the most accurate which had been carried out up to that time and was correct to within half of one percent.
Foucault accompanied Le Verrier on an expedition to Spain in 1860 to observe the eclipse on 18 July. He took a photograph of the eclipse. Honours were now quickly given to him: Napoleon III made him an Officer Légion d'Honneur in 1862; he was elected to the Bureau des Longitudes (1862); he was elected a fellow of the Royal Society of London; also a member of the German Academy of Scientists Leopoldina; and finally in 1865 the French Academy of Sciences where he replaced Clapeyron.
By October 1867 Foucault began to feel numbness in his hands. The illness progressed rapidly despite the efforts of Foucault's mother to help her son recover. It is likely that the illness was the result of the chemicals, in particular mercury, that Foucault had experimented with all his life. Of course, as we noted at the beginning of this biography, Foucault's father died young so perhaps hereditary factors also played a part."
FYI COL Mikel J. Burroughs SMSgt Lawrence McCarter SPC Michael Duricko, Ph.D GySgt Thomas Vick SGT Denny Espinosa SSG Stephen Rogerson SPC Matthew Lamb LTC (Join to see)Maj Bill Smith, Ph.D. MAJ Dale E. Wilson, Ph.D. PO1 William "Chip" Nagel PO2 (Join to see) SSG Franklin Briant SPC Woody Bullard TSgt David L. SMSgt David A Asbury SPC Michael Terrell SFC Chuck Martinez CPT Richard Trione
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LTC Stephen F.
Jean Bernard Léon Foucault and Foucaults Pendulum
https://www.youtube.com/watch?v=tTLFBXtcssA
Images:
1. Jean Bernard Léon Foucault photo by Berall & Cie [cropped]
2. Jean Bernard Léon Foucault gyroscope
3. Jean Bernard Léon Foucault
4. Jean Bernard Léon Foucault pendulum.
Background from {[https://micro.magnet.fsu.edu/optics/timeline/people/foucault.html]}
Jean-Bernard-Leon Foucault (1819-1868)
Jean-Bernard-Leon Foucault was a French physicist who is considered one of the most versatile experimentalists of the nineteenth century. He is well known for his experiments in optics and mechanics and was involved in the development of a method to measure the speed of light with extreme accuracy. Foucault is most often remembered for proving, with the use of a pendulum, that the Earth rotates on its axis.
On September 18, 1819 Foucault was born in Paris, France, the son of a publisher. His early education was received at home and he showed youthful promise in mechanics. After obtaining his bachelor of arts degree, Foucault entered medical school but soon abandoned the program. Instead, he began working for Alfred Donne, making preparations for a university medical microscopy course. Since his elementary mathematical and scientific training had been inadequate for his interests, Foucault supplemented it as he became involved with invention and experiment.
Foucault met the French physicist Armand Fizeau in 1839 and the pair worked in close collaboration for almost a decade. Together they took the first detailed pictures of the sun's surface and developed a more precise way to measure the speed of light in 1849. Foucault proved independently that the speed of light in air is greater than it is in water. His other contributions to the field of optics included a method of measuring the curvature of telescope mirrors, an improved technique to silver astronomical mirrors, a method of testing telescope mirrors for surface defects, and the invention of a polarizing prism to orient and manipulate polarized light.
Succeeding Donne as the scientific editor of the French publication Journal des Débats in 1845, Foucault's most widely recognized feat was not completed until several years later. While employing a pendulum to create a clock used for controlling telescopes, he stumbled upon the idea of applying the technique to prove that the Earth rotates on its axis. Foucault based his proof on Newton's law, which states that when a body is set in motion, it will move in a straight line from its origin, as long as it is not influenced by outside forces. Foucault demonstrated his proof for the first time at the 1851 World's Fair in the Pantheon in Paris. He showed that although the pendulum seemed to change its path during the day, it was actually the floor that was rotating underneath the pendulum. Because the floor is attached to the Earth, it must be the Earth that is rotating.
The gyroscope was another device invented by Foucault to demonstrate the Earth's movement around its axis. The apparatus he designed earned him the Cross of the Legion of Honour and is the basis of the modern gyrocompass. Foucault was given the position of physicist of the Paris Observatory beginning in 1855 and was one of the first to demonstrate the existence of eddy currents generated by magnetic fields, which are sometimes referred to as Foucault currents. Other honors bestowed upon him include the Copley Medal of the Royal Society of London, as well as election into the Bureau of Longitudes and the French Academy of Sciences. His successful career was ended prematurely, however, when he suffered a sudden stroke of paralysis and died at the age of 48.
Measuring the Speed of Light - Starting with Ole Roemer's 1676 breakthrough endeavors, the speed of light has been measured at least 163 times by more than 100 investigators utilizing a wide variety of different techniques. Finally in 1983, more than 300 years after the first serious measurement attempt, the speed of light was defined as being 299,792.458 kilometers per second by the Seventeenth General Congress on Weights and Measures. Thus, the meter is defined as the distance light travels through a vacuum during a time interval of 1/299,792,458 seconds. In general, however, (even in many scientific calculations) the speed of light is rounded to 300,000 kilometers (or 186,000 miles) per second."
FYI Sgt John H. SGM Bill FrazerCSM (Join to see)SSG Jeffrey LeakeSSG Paul HeadleeSGM Major StroupeCPL Michael PeckSSG Jeff Furgerson]Sgt (Join to see)PO1 Steve Ditto SPC Michael Terrell CPL Douglas ChryslerSP5 Geoffrey Vannerson LTC John Shaw SPC Matthew Lamb SSG Robert WebsterSFC Bernard Walko SSG Michael Noll SSG William Jones Maj Marty Hogan
https://www.youtube.com/watch?v=tTLFBXtcssA
Images:
1. Jean Bernard Léon Foucault photo by Berall & Cie [cropped]
2. Jean Bernard Léon Foucault gyroscope
3. Jean Bernard Léon Foucault
4. Jean Bernard Léon Foucault pendulum.
Background from {[https://micro.magnet.fsu.edu/optics/timeline/people/foucault.html]}
Jean-Bernard-Leon Foucault (1819-1868)
Jean-Bernard-Leon Foucault was a French physicist who is considered one of the most versatile experimentalists of the nineteenth century. He is well known for his experiments in optics and mechanics and was involved in the development of a method to measure the speed of light with extreme accuracy. Foucault is most often remembered for proving, with the use of a pendulum, that the Earth rotates on its axis.
On September 18, 1819 Foucault was born in Paris, France, the son of a publisher. His early education was received at home and he showed youthful promise in mechanics. After obtaining his bachelor of arts degree, Foucault entered medical school but soon abandoned the program. Instead, he began working for Alfred Donne, making preparations for a university medical microscopy course. Since his elementary mathematical and scientific training had been inadequate for his interests, Foucault supplemented it as he became involved with invention and experiment.
Foucault met the French physicist Armand Fizeau in 1839 and the pair worked in close collaboration for almost a decade. Together they took the first detailed pictures of the sun's surface and developed a more precise way to measure the speed of light in 1849. Foucault proved independently that the speed of light in air is greater than it is in water. His other contributions to the field of optics included a method of measuring the curvature of telescope mirrors, an improved technique to silver astronomical mirrors, a method of testing telescope mirrors for surface defects, and the invention of a polarizing prism to orient and manipulate polarized light.
Succeeding Donne as the scientific editor of the French publication Journal des Débats in 1845, Foucault's most widely recognized feat was not completed until several years later. While employing a pendulum to create a clock used for controlling telescopes, he stumbled upon the idea of applying the technique to prove that the Earth rotates on its axis. Foucault based his proof on Newton's law, which states that when a body is set in motion, it will move in a straight line from its origin, as long as it is not influenced by outside forces. Foucault demonstrated his proof for the first time at the 1851 World's Fair in the Pantheon in Paris. He showed that although the pendulum seemed to change its path during the day, it was actually the floor that was rotating underneath the pendulum. Because the floor is attached to the Earth, it must be the Earth that is rotating.
The gyroscope was another device invented by Foucault to demonstrate the Earth's movement around its axis. The apparatus he designed earned him the Cross of the Legion of Honour and is the basis of the modern gyrocompass. Foucault was given the position of physicist of the Paris Observatory beginning in 1855 and was one of the first to demonstrate the existence of eddy currents generated by magnetic fields, which are sometimes referred to as Foucault currents. Other honors bestowed upon him include the Copley Medal of the Royal Society of London, as well as election into the Bureau of Longitudes and the French Academy of Sciences. His successful career was ended prematurely, however, when he suffered a sudden stroke of paralysis and died at the age of 48.
Measuring the Speed of Light - Starting with Ole Roemer's 1676 breakthrough endeavors, the speed of light has been measured at least 163 times by more than 100 investigators utilizing a wide variety of different techniques. Finally in 1983, more than 300 years after the first serious measurement attempt, the speed of light was defined as being 299,792.458 kilometers per second by the Seventeenth General Congress on Weights and Measures. Thus, the meter is defined as the distance light travels through a vacuum during a time interval of 1/299,792,458 seconds. In general, however, (even in many scientific calculations) the speed of light is rounded to 300,000 kilometers (or 186,000 miles) per second."
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LTC Stephen F.
Jean Bernard Léon Foucault is still up to his old tricks | Doc Physics
...And what a frenchman he is!Anyway, there's more detail here on the Foucault Pendulum. And a challenge! Do you have what it takes???
Jean Bernard Léon Foucault is still up to his old tricks | Doc Physics
Anyway, there's more detail here on the Foucault Pendulum. And a challenge! Do you have what it takes???
https://www.youtube.com/watch?v=UUN9rIdDrQc
Images
1. Foucault’s pendulum installed at the Pantheon in Paris
2. Jean Bernard Léon Foucault 'The phenomenon develops calmly, but it is invisible, unstoppable. One feels, one sees it born and grow steadily; and it is not in one's power to either hasten or slow it down.'
3. Jean Bernard Leon grave, Montmartre, Paris
4. Jean Bernard Léon Foucault 'Any person, brought into the presence of this fact, stops for a few moments and remains pensive and silent; and then generally leaves, carrying with him forever a sharper, keener sense of our incessant motion through space.
Background from {[https://medium.com/eiffels-paris-an-engineers-guide/l%C3%A9on-foucault-science-communicator-cc4b8e3a07c6]}
Léon Foucault — Science Communicator
William Nuttle on Jul 16, 2015
Jean Bernard Léon Foucault was a gifted experimentalist. He invented the gyroscope, measured the speed of light, improved instruments used in microscopy and astronomy, and applied the new technology of photography to science.[i] However, these achievements would have gone unrecognized by Foucault’s more theory-minded contemporaries if not for his success in communicating developments in science to the general public.
Foucault’s entry into a scientific career nearly ended in frustration. Foucault was always an indifferent student, and his teachers at the rigorous Collège Stanislas considered him to be something of a slacker. But from the age of thirteen Foucault displayed a keen interest in technology and a remarkable ability to construct things with his own hands. Seeking to build on these talents, Foucault’s mother pushed him to train as a surgeon. These plans came undone in medical school when it became clear that Foucault could not stand the sight of blood, and he also did not like to be around sick people very much. Fortunately, one of his professors, Alfred Donné, hired Foucault to assist with a course on microscopy. This was his start as a hands-on experimental scientist.
Foucault’s association with Donné also launched his career as a science communicator. As science editor for the influential newspaper, the Journal de débats, Donné reported on the latest developments in science to the general public. When Donné retired, Foucault assumed his role as the popular voice of science in Paris. This was around the middle of the 19th century during a revolution in science and technology was transforming Paris, France, and the world beyond. Through his lively reports on weekly meetings of the Academy of Sciences, Foucault soon had the attention of a devoted public audience as well as the scientific elite, who were the frequent subject of his sometimes unexpectedly frank commentary.
Wide public acclaim for Foucault’s work as a scientist came in response to an experiment conceived entirely on his own and carried out under his own initiative. Using only a pendulum, one of the oldest instruments in the physicist’s toolbox, Foucault was able to demonstrate conclusively what had been once one of science’s most controversial assertions — that the Earth spins on its axis. In February 1851 Foucault had worked out the kinks, and he invited the scientific community to view a demonstration in the Paris Observatory. His printed invitation read simply, “You are invited to come see the Earth turn, tomorrow, from three to five, at Meridian Hall of the Paris Observatory.”[ii]
The elite members of the Academy who showed up at the appointed hour may have been puzzled by the spare display that Foucault had arranged. Suspended from an 11-meter long wire, attached to the ceiling in the middle of the room, was a perfectly formed brass sphere weighing five kilograms (about eleven pounds).[iii] A thin cord attached to one wall held the pendulum to one side of the room. At the appointed hour Foucault made some introductory remarks and applied a lit match to the cord, which burned through immediately.
Released from the cord’s restraint, the brass sphere swung gracefully to the other side of the room. Then, reversing direction, the sphere retraced its path back to the point of release — but not exactly. At the end of the return path the sphere was slightly to the left, shifted in a clockwise direction around the room from where it had started six and a half seconds earlier. After its next passage across the room and back the sphere had shifted slightly further clockwise around the room, and so on with each successive swing. To the observers it appeared at first that the plane described by the sweeping arc of the pendulum was rotating slowly. But, of course the plane of the pendulum was not moving at all; it was the floor of the Meridian Hall that was rotating beneath it. As the full implications of what they were seeing sunk in, Foucault’s guests had the eerie sensation of the Earth moving beneath their feet.
Although Foucault’s experiment appears simple, its successful execution depends on careful preparation. The influence of extraneous factors can confound the results if the experiment is approached casually. All present that day could see the painstaking care with which Foucault had constructed this apparatus to eliminate these extraneous factors. The brass sphere was perfectly symmetrical. The point of attachment to the ceiling allowed the cable to swing freely in any direction. And the method of releasing the pendulum assured that at the start there was no tendency for the pendulum to deviate in its path. No one doubted that they were seeing the Earth rotate beneath the pendulum.
However, for some of the academicians who witnessed that first demonstration, Foucault’s pendulum experiment was most disturbing. The experiment proved nothing new; yet it challenged everything. Everyone already knew that the Earth rotates on its axis. However, several eminent members of the Academy, notably the mathematicians Cauchy and Poisson, had argued from first principles that the Earth’s rotation could not produce the phenomenon that was plainly occurring. Foucault’s pendulum experiment appeared to undermine the mathematical foundations that members of the Academy had carefully erected to support the sciences of physics and astronomy. For this service to theoretical science, Foucault would receive no gratitude from the Academy.
Unconcerned by these theoretical issues, the public was enthralled. Emperor Napoleon III decreed that Foucault’s experiment be displayed publicly under the dome of the Panthéon in Paris,[iv] and in 1855 Napoleon appointed Foucault to the position of physicist attached to the Paris Observatory. London’s Royal Society awarded him the prestigious Copley Medal that same year. Finally, in 1865 the Academy of Sciences elected Foucault as a member. For Foucault, an experimentalist lacking the theoretical credentials most valued by members of the Academy, this honor was the result of his incomparable ability at communicating science to the public.
Jean Bernard Léon Foucault, physicist, is one of the 72 scientists named on the Eiffel Tower.
References
[i] Gillispie, C.C., Holmes, F.L., and N. Koertge (eds), 2008. Complete Dictionary of Scientific Biography [electronic resource]. Scribner’s, Detroit.
[ii] Aczel, A.D., 2003. Pendulum: Léon Foucault and the Triumph of Science. Simon & Shuster, New York.
[iii] Foucault’s original pendulum is on display at the Musée des arts et métiers, in Paris.
[iv] A replica of Foucault’s pendulum experiment can be seen under the dome of the Panthéon in Paris, in many science museums around the world, and sometimes in a stairwell at the New Jersey Institute of Technology [accessed 17 Mar 2011;
FYI LTC John Shaw SPC Diana D. LTC Hillary Luton
1SG Steven ImermanSSG Pete FishGySgt Gary CordeiroPO1 H Gene LawrenceSPC Chris Bayner-CwikSgt Jim BelanusSGM Bill FrazerMSG Tom Earley]SGT Michael HearnSP5 Dennis LobergerCPO John BjorgeSGT Randell RoseSSG Jimmy CernichSGT Denny EspinosaMSG Fred Bucci1SG Mark Rudoplh LTC Ken Connolly
Anyway, there's more detail here on the Foucault Pendulum. And a challenge! Do you have what it takes???
https://www.youtube.com/watch?v=UUN9rIdDrQc
Images
1. Foucault’s pendulum installed at the Pantheon in Paris
2. Jean Bernard Léon Foucault 'The phenomenon develops calmly, but it is invisible, unstoppable. One feels, one sees it born and grow steadily; and it is not in one's power to either hasten or slow it down.'
3. Jean Bernard Leon grave, Montmartre, Paris
4. Jean Bernard Léon Foucault 'Any person, brought into the presence of this fact, stops for a few moments and remains pensive and silent; and then generally leaves, carrying with him forever a sharper, keener sense of our incessant motion through space.
Background from {[https://medium.com/eiffels-paris-an-engineers-guide/l%C3%A9on-foucault-science-communicator-cc4b8e3a07c6]}
Léon Foucault — Science Communicator
William Nuttle on Jul 16, 2015
Jean Bernard Léon Foucault was a gifted experimentalist. He invented the gyroscope, measured the speed of light, improved instruments used in microscopy and astronomy, and applied the new technology of photography to science.[i] However, these achievements would have gone unrecognized by Foucault’s more theory-minded contemporaries if not for his success in communicating developments in science to the general public.
Foucault’s entry into a scientific career nearly ended in frustration. Foucault was always an indifferent student, and his teachers at the rigorous Collège Stanislas considered him to be something of a slacker. But from the age of thirteen Foucault displayed a keen interest in technology and a remarkable ability to construct things with his own hands. Seeking to build on these talents, Foucault’s mother pushed him to train as a surgeon. These plans came undone in medical school when it became clear that Foucault could not stand the sight of blood, and he also did not like to be around sick people very much. Fortunately, one of his professors, Alfred Donné, hired Foucault to assist with a course on microscopy. This was his start as a hands-on experimental scientist.
Foucault’s association with Donné also launched his career as a science communicator. As science editor for the influential newspaper, the Journal de débats, Donné reported on the latest developments in science to the general public. When Donné retired, Foucault assumed his role as the popular voice of science in Paris. This was around the middle of the 19th century during a revolution in science and technology was transforming Paris, France, and the world beyond. Through his lively reports on weekly meetings of the Academy of Sciences, Foucault soon had the attention of a devoted public audience as well as the scientific elite, who were the frequent subject of his sometimes unexpectedly frank commentary.
Wide public acclaim for Foucault’s work as a scientist came in response to an experiment conceived entirely on his own and carried out under his own initiative. Using only a pendulum, one of the oldest instruments in the physicist’s toolbox, Foucault was able to demonstrate conclusively what had been once one of science’s most controversial assertions — that the Earth spins on its axis. In February 1851 Foucault had worked out the kinks, and he invited the scientific community to view a demonstration in the Paris Observatory. His printed invitation read simply, “You are invited to come see the Earth turn, tomorrow, from three to five, at Meridian Hall of the Paris Observatory.”[ii]
The elite members of the Academy who showed up at the appointed hour may have been puzzled by the spare display that Foucault had arranged. Suspended from an 11-meter long wire, attached to the ceiling in the middle of the room, was a perfectly formed brass sphere weighing five kilograms (about eleven pounds).[iii] A thin cord attached to one wall held the pendulum to one side of the room. At the appointed hour Foucault made some introductory remarks and applied a lit match to the cord, which burned through immediately.
Released from the cord’s restraint, the brass sphere swung gracefully to the other side of the room. Then, reversing direction, the sphere retraced its path back to the point of release — but not exactly. At the end of the return path the sphere was slightly to the left, shifted in a clockwise direction around the room from where it had started six and a half seconds earlier. After its next passage across the room and back the sphere had shifted slightly further clockwise around the room, and so on with each successive swing. To the observers it appeared at first that the plane described by the sweeping arc of the pendulum was rotating slowly. But, of course the plane of the pendulum was not moving at all; it was the floor of the Meridian Hall that was rotating beneath it. As the full implications of what they were seeing sunk in, Foucault’s guests had the eerie sensation of the Earth moving beneath their feet.
Although Foucault’s experiment appears simple, its successful execution depends on careful preparation. The influence of extraneous factors can confound the results if the experiment is approached casually. All present that day could see the painstaking care with which Foucault had constructed this apparatus to eliminate these extraneous factors. The brass sphere was perfectly symmetrical. The point of attachment to the ceiling allowed the cable to swing freely in any direction. And the method of releasing the pendulum assured that at the start there was no tendency for the pendulum to deviate in its path. No one doubted that they were seeing the Earth rotate beneath the pendulum.
However, for some of the academicians who witnessed that first demonstration, Foucault’s pendulum experiment was most disturbing. The experiment proved nothing new; yet it challenged everything. Everyone already knew that the Earth rotates on its axis. However, several eminent members of the Academy, notably the mathematicians Cauchy and Poisson, had argued from first principles that the Earth’s rotation could not produce the phenomenon that was plainly occurring. Foucault’s pendulum experiment appeared to undermine the mathematical foundations that members of the Academy had carefully erected to support the sciences of physics and astronomy. For this service to theoretical science, Foucault would receive no gratitude from the Academy.
Unconcerned by these theoretical issues, the public was enthralled. Emperor Napoleon III decreed that Foucault’s experiment be displayed publicly under the dome of the Panthéon in Paris,[iv] and in 1855 Napoleon appointed Foucault to the position of physicist attached to the Paris Observatory. London’s Royal Society awarded him the prestigious Copley Medal that same year. Finally, in 1865 the Academy of Sciences elected Foucault as a member. For Foucault, an experimentalist lacking the theoretical credentials most valued by members of the Academy, this honor was the result of his incomparable ability at communicating science to the public.
Jean Bernard Léon Foucault, physicist, is one of the 72 scientists named on the Eiffel Tower.
References
[i] Gillispie, C.C., Holmes, F.L., and N. Koertge (eds), 2008. Complete Dictionary of Scientific Biography [electronic resource]. Scribner’s, Detroit.
[ii] Aczel, A.D., 2003. Pendulum: Léon Foucault and the Triumph of Science. Simon & Shuster, New York.
[iii] Foucault’s original pendulum is on display at the Musée des arts et métiers, in Paris.
[iv] A replica of Foucault’s pendulum experiment can be seen under the dome of the Panthéon in Paris, in many science museums around the world, and sometimes in a stairwell at the New Jersey Institute of Technology [accessed 17 Mar 2011;
FYI LTC John Shaw SPC Diana D. LTC Hillary Luton
1SG Steven ImermanSSG Pete FishGySgt Gary CordeiroPO1 H Gene LawrenceSPC Chris Bayner-CwikSgt Jim BelanusSGM Bill FrazerMSG Tom Earley]SGT Michael HearnSP5 Dennis LobergerCPO John BjorgeSGT Randell RoseSSG Jimmy CernichSGT Denny EspinosaMSG Fred Bucci1SG Mark Rudoplh LTC Ken Connolly
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