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Galileo's Leaning Tower of Pisa experiment

October 31, 2023

Between 1589 and 1592,[1] the Italian scientist Galileo Galilei (then professor of mathematics at the University of Pisa) is said to have dropped two spheres of the same volume but different masses from the Leaning Tower of Pisa to demonstrate that their time of descent was independent of their mass, according to a biography by Galileo's pupil Vincenzo Viviani, composed in 1654 and published in 1717.[2][3]: 19–21 [4][5] The basic premise had already been demonstrated by Italian experimenters a few decades earlier.

Comparison of the antiquated view and the outcome of the experiment (size of the spheres represent their masses, not their volumes)

According to the story, Galileo discovered through this experiment that the objects fell with the same acceleration, proving his prediction true, while at the same time disproving Aristotle's theory of gravity (which states that objects fall at speed proportional to their mass). Most historians consider it to have been a thought experiment rather than a physical test.[6]

Background edit

Further information: History of gravitational theory

The 6th-century Byzantine Greek philosopher and Aristotelian commentator John Philoponus argued that the Aristotelian assertion that objects fall proportionately to their weight was incorrect.[7] By 1544, according to Benedetto Varchi, the Aristotelian premise was disproven experimentally by at least two Italians.[8] In 1551, Domingo de Soto suggested that objects in free fall accelerate uniformly.[8] Two years later, mathematician Giambattista Benedetti questioned why two balls, one made of iron and one of wood, would fall at the same speed.[8] All of this preceded the 1564 birth of Galileo Galilei.

Delft tower experiment edit

 
The Nieuwe Kerk in Delft, where the experiment by Stevin and de Groot took place
Main article: Delft tower experiment

A similar experiment was conducted in Delft in the Netherlands, by the mathematician and physicist Simon Stevin and Jan Cornets de Groot (the father of Hugo de Groot). The experiment is described in Stevin's 1586 book De Beghinselen der Weeghconst (The Principles of Statics), a landmark book on statics:

Let us take (as the highly educated Jan Cornets de Groot, the diligent researcher of the mysteries of Nature, and I have done) two balls of lead, the one ten times bigger and heavier than the other, and let them drop together from 30 feet high, and it will show, that the lightest ball is not ten times longer under way than the heaviest, but they fall together at the same time on the ground. ... This proves that Aristotle is wrong.[9][10][11]

Galileo's experiment edit

At the time when Viviani asserts that the experiment took place, Galileo had not yet formulated the final version of his law of falling bodies. He had, however, formulated an earlier version which predicted that bodies of the same material falling through the same medium would fall at the same speed.[3]: 20  This was contrary to what Aristotle had taught: that heavy objects fall faster than the lighter ones, and in direct proportion to their weight.[3]: 9 [12] While this story has been retold in popular accounts, there is no account by Galileo himself of such an experiment, and many historians believe that it was a thought experiment.[13] An exception is Stillman Drake, who argues that it took place, more or less as Viviani described it, as a demonstration for students.[3]: 19–21, 414–416 

 
Galileo's thought experiment concerned the outcome (c) of attaching a small stone (a) to a larger one (b)

Galileo set out his ideas about falling people, and about projectiles in general, in his book Two New Sciences (1638). The two sciences were the science of motion, which became the foundation-stone of physics, and the science of materials and construction, an important contribution to engineering. Galileo arrived at his hypothesis by a famous thought experiment outlined in his book On Motion.[14] He writes:

Salviati. If then we take two bodies whose natural speeds are different, it is clear that on uniting the two, the more rapid one will be partly retarded by the slower, and the slower will be somewhat hastened by the swifter. Do you not agree with me in this opinion?

Simplicio. You are unquestionably right.

Salviati. But if this is true, and if a large stone moves with a speed of, say, eight while a smaller moves with a speed of four, then when they are united, the system will move with a speed less than eight; but the two stones when tied together make a stone larger than that which before moved with a speed of eight. Hence the heavier body moves with less speed than the lighter; an effect which is contrary to your supposition. Thus you see how, from your assumption that the heavier body moves more rapidly than the lighter one, I infer that the heavier body moves more slowly.[15]

His argument is that if we assume heavier objects do indeed fall faster than lighter ones (and conversely, lighter objects fall slower), the string will soon pull taut as the lighter object retards the fall of the heavier object. But the system considered as a whole is heavier than the heavy object alone, and therefore should fall faster. This contradiction leads one to conclude the assumption is false.

Later performances edit

Hammer and feather drop on the Moon by astronaut David Scott, Apollo 15 (1.38 MB, ogg/Theora format)

Astronaut David Scott performed a version of the experiment on the Moon during the Apollo 15 mission in 1971, dropping a feather and a hammer from his hands. Because of the negligible lunar atmosphere, there was no drag on the feather, which reached the lunar surface at the same time as the hammer.[16]

See also edit

Notes edit

  1. ^ Some contemporary sources speculate about the exact date; e.g. Rachel Hilliam gives 1591 (Galileo Galilei: Father of Modern Science, The Rosen Publishing Group, 2005, p. 101).
  2. ^ Vincenzo Viviani (1717), Racconto istorico della vita di Galileo Galilei, p. 606: [...dimostrando ciò con replicate esperienze, fatte dall'altezza del Campanile di Pisa con l'intervento delli altri lettori e filosofi e di tutta la scolaresca... [...Galileo showed this [all bodies, whatever their weights, fall with equal speeds] by repeated experiments made from the height of the Leaning Tower of Pisa in the presence of other professors and all the students...].
  3. ^ a b c d Drake, Stillman (2003). Galileo at Work: His Scientific Biography (Facsim. ed.). Mineola (N.Y.): Dover publ. ISBN 9780486495422.
  4. ^ . The Hindu. June 30, 2005. Archived from the original on November 2, 2005. Retrieved May 5, 2009.
  5. ^ Vincenzo Viviani on museo galileo
  6. ^ "El experimento más famoso de Galileo probablemente nunca tuvo lugar". The Conversation. May 16, 2019. Retrieved May 17, 2019.
  7. ^ Wildberg, Christian, "John Philoponus", The Stanford Encyclopedia of Philosophy (Winter 2018 Edition), Edward N. Zalta (ed.) "As regards the natural motion of bodies falling through a medium, it was Aristotle's contention that the speed is proportional to the weight of the moving bodies and indirectly proportional to the density of the medium. Philoponus repudiates this view by appeal to the same kind of experiment that Galileo was to carry out centuries later (In Phys. 682–84)."
  8. ^ a b c Wallace, William A. (2018) [2004]. Domingo de Soto and the Early Galileo: Essays on Intellectual History. Abingdon, UK: Routledge. pp. 119, 121–22. ISBN 978-1-351-15959-3.
  9. ^ Laet nemen (soo den hoochgheleerden H. IAN CORNETS DE GROOT vlietichste ondersoucker der Naturens verborghentheden, ende ick ghedaen hebben) twee loyen clooten d'een thienmael grooter en swaerder als d'ander, die laet t'samen vallen van 30 voeten hooch, op een bart oft yet daer sy merckelick gheluyt tegen gheven, ende sal blijcken, dat de lichste gheen thienmael langher op wech en blijft dan de swaerste, maer datse t'samen so ghelijck opt bart vallen, dat haer beyde gheluyden een selve clop schijnt te wesen. S'ghelijcx bevint hem daetlick oock also, met twee evegroote lichamen in thienvoudighe reden der swaerheyt, daerom Aristoteles voornomde everedenheyt is onrecht. In: Simon Stevin, De Beghinselen der Weeghconst, 1586.
  10. ^ Asimov, Isaac (1964). Asimov's Biographical Encyclopedia of Science and Technology. ISBN 978-0385177719
  11. ^ E. J. Dijksterhuis, ed., The Principal Works of Simon Stevin. Amsterdam, Netherlands: C. V. Swets & Zeitlinger, 1955 vol. 1, pp. 509, 511.
  12. ^ Sharratt, M. (1994). Galileo: Decisive Innovator. Cambridge University Press. p. 31. ISBN 0-521-56671-1.
  13. ^ Groleau, R. (July 2002). "Galileo's Battle for the Heavens". PBS.
  14. ^ Van Helden, Albert (1995). "On Motion". The Galileo Project.
  15. ^ "Galileo on Aristotle and Acceleration". Retrieved 2008-05-24.
  16. ^ "The Apollo 15 Hammer-Feather Drop". Moon: NASA Science. Retrieved 5 September 2022.

Further reading edit

  • Adler, Carl G. (1978). "Galileo and the Tower of Pisa experiment". American Journal of Physics. 46 (3): 199–201. Bibcode:1978AmJPh..46..199A. doi:10.1119/1.11165.
  • Crease, Robert P. (2006). "The Legend of the Leaning Tower". In Hall, Linley Erin (ed.). The laws of motion : an anthology of current thought. Reprint of an article in Physics World, February 2003. (1st ed.). New York: Rosen Pub. Group. pp. 8–14. ISBN 9781404204089.
  • Segre, Michael (1989). "Galileo, Viviani and the tower of Pisa". Studies in History and Philosophy of Science Part A. 20 (4): 435–451. Bibcode:1989SHPSA..20..435S. doi:10.1016/0039-3681(89)90018-6.

External links edit

  • Galileo experiment on the Moon
  • The Hammer-Feather Drop in the world’s biggest vacuum chamber

October 31, 2023
galileo, leaning, tower, pisa, experiment, between, 1589, 1592, italian, scientist, galileo, galilei, then, professor, mathematics, university, pisa, said, have, dropped, spheres, same, volume, different, masses, from, leaning, tower, pisa, demonstrate, that, . Between 1589 and 1592 1 the Italian scientist Galileo Galilei then professor of mathematics at the University of Pisa is said to have dropped two spheres of the same volume but different masses from the Leaning Tower of Pisa to demonstrate that their time of descent was independent of their mass according to a biography by Galileo s pupil Vincenzo Viviani composed in 1654 and published in 1717 2 3 19 21 4 5 The basic premise had already been demonstrated by Italian experimenters a few decades earlier Comparison of the antiquated view and the outcome of the experiment size of the spheres represent their masses not their volumes According to the story Galileo discovered through this experiment that the objects fell with the same acceleration proving his prediction true while at the same time disproving Aristotle s theory of gravity which states that objects fall at speed proportional to their mass Most historians consider it to have been a thought experiment rather than a physical test 6 Contents 1 Background 1 1 Delft tower experiment 2 Galileo s experiment 3 Later performances 4 See also 5 Notes 6 Further reading 7 External linksBackground editFurther information History of gravitational theory The 6th century Byzantine Greek philosopher and Aristotelian commentator John Philoponus argued that the Aristotelian assertion that objects fall proportionately to their weight was incorrect 7 By 1544 according to Benedetto Varchi the Aristotelian premise was disproven experimentally by at least two Italians 8 In 1551 Domingo de Soto suggested that objects in free fall accelerate uniformly 8 Two years later mathematician Giambattista Benedetti questioned why two balls one made of iron and one of wood would fall at the same speed 8 All of this preceded the 1564 birth of Galileo Galilei Delft tower experiment edit nbsp The Nieuwe Kerk in Delft where the experiment by Stevin and de Groot took placeMain article Delft tower experiment A similar experiment was conducted in Delft in the Netherlands by the mathematician and physicist Simon Stevin and Jan Cornets de Groot the father of Hugo de Groot The experiment is described in Stevin s 1586 book De Beghinselen der Weeghconst The Principles of Statics a landmark book on statics Let us take as the highly educated Jan Cornets de Groot the diligent researcher of the mysteries of Nature and I have done two balls of lead the one ten times bigger and heavier than the other and let them drop together from 30 feet high and it will show that the lightest ball is not ten times longer under way than the heaviest but they fall together at the same time on the ground This proves that Aristotle is wrong 9 10 11 Galileo s experiment editAt the time when Viviani asserts that the experiment took place Galileo had not yet formulated the final version of his law of falling bodies He had however formulated an earlier version which predicted that bodies of the same material falling through the same medium would fall at the same speed 3 20 This was contrary to what Aristotle had taught that heavy objects fall faster than the lighter ones and in direct proportion to their weight 3 9 12 While this story has been retold in popular accounts there is no account by Galileo himself of such an experiment and many historians believe that it was a thought experiment 13 An exception is Stillman Drake who argues that it took place more or less as Viviani described it as a demonstration for students 3 19 21 414 416 nbsp Galileo s thought experiment concerned the outcome c of attaching a small stone a to a larger one b Galileo set out his ideas about falling people and about projectiles in general in his book Two New Sciences 1638 The two sciences were the science of motion which became the foundation stone of physics and the science of materials and construction an important contribution to engineering Galileo arrived at his hypothesis by a famous thought experiment outlined in his book On Motion 14 He writes Salviati If then we take two bodies whose natural speeds are different it is clear that on uniting the two the more rapid one will be partly retarded by the slower and the slower will be somewhat hastened by the swifter Do you not agree with me in this opinion Simplicio You are unquestionably right Salviati But if this is true and if a large stone moves with a speed of say eight while a smaller moves with a speed of four then when they are united the system will move with a speed less than eight but the two stones when tied together make a stone larger than that which before moved with a speed of eight Hence the heavier body moves with less speed than the lighter an effect which is contrary to your supposition Thus you see how from your assumption that the heavier body moves more rapidly than the lighter one I infer that the heavier body moves more slowly 15 His argument is that if we assume heavier objects do indeed fall faster than lighter ones and conversely lighter objects fall slower the string will soon pull taut as the lighter object retards the fall of the heavier object But the system considered as a whole is heavier than the heavy object alone and therefore should fall faster This contradiction leads one to conclude the assumption is false Later performances edit source source source source source track track track track track Hammer and feather drop on the Moon by astronaut David Scott Apollo 15 1 38 MB ogg Theora format Astronaut David Scott performed a version of the experiment on the Moon during the Apollo 15 mission in 1971 dropping a feather and a hammer from his hands Because of the negligible lunar atmosphere there was no drag on the feather which reached the lunar surface at the same time as the hammer 16 See also editDelft tower experiment Terminal velocity An object dropped through air from a sufficient height will reach a steady speed called the terminal velocity when the aerodynamic drag force pushing up on the body balances the gravitational force weight pulling the body down Nordtvedt effect Newton s second law Law of InertiaNotes edit Some contemporary sources speculate about the exact date e g Rachel Hilliam gives 1591 Galileo Galilei Father of Modern Science The Rosen Publishing Group 2005 p 101 Vincenzo Viviani 1717 Racconto istorico della vita di Galileo Galilei p 606 dimostrando cio con replicate esperienze fatte dall altezza del Campanile di Pisa con l intervento delli altri lettori e filosofi e di tutta la scolaresca Galileo showed this all bodies whatever their weights fall with equal speeds by repeated experiments made from the height of the Leaning Tower of Pisa in the presence of other professors and all the students a b c d Drake Stillman 2003 Galileo at Work His Scientific Biography Facsim ed Mineola N Y Dover publ ISBN 9780486495422 Sci Tech Science history setting the record straight The Hindu June 30 2005 Archived from the original on November 2 2005 Retrieved May 5 2009 Vincenzo Viviani on museo galileo El experimento mas famoso de Galileo probablemente nunca tuvo lugar The Conversation May 16 2019 Retrieved May 17 2019 Wildberg Christian John Philoponus The Stanford Encyclopedia of Philosophy Winter 2018 Edition Edward N Zalta ed As regards the natural motion of bodies falling through a medium it was Aristotle s contention that the speed is proportional to the weight of the moving bodies and indirectly proportional to the density of the medium Philoponus repudiates this view by appeal to the same kind of experiment that Galileo was to carry out centuries later In Phys 682 84 a b c Wallace William A 2018 2004 Domingo de Soto and the Early Galileo Essays on Intellectual History Abingdon UK Routledge pp 119 121 22 ISBN 978 1 351 15959 3 Laet nemen soo den hoochgheleerden H IAN CORNETS DE GROOT vlietichste ondersoucker der Naturens verborghentheden ende ick ghedaen hebben twee loyen clooten d een thienmael grooter en swaerder als d ander die laet t samen vallen van 30 voeten hooch op een bart oft yet daer sy merckelick gheluyt tegen gheven ende sal blijcken dat de lichste gheen thienmael langher op wech en blijft dan de swaerste maer datse t samen so ghelijck opt bart vallen dat haer beyde gheluyden een selve clop schijnt te wesen S ghelijcx bevint hem daetlick oock also met twee evegroote lichamen in thienvoudighe reden der swaerheyt daerom Aristoteles voornomde everedenheyt is onrecht In Simon Stevin De Beghinselen der Weeghconst 1586 Asimov Isaac 1964 Asimov s Biographical Encyclopedia of Science and Technology ISBN 978 0385177719 E J Dijksterhuis ed The Principal Works of Simon Stevin Amsterdam Netherlands C V Swets amp Zeitlinger 1955 vol 1 pp 509 511 Sharratt M 1994 Galileo Decisive Innovator Cambridge University Press p 31 ISBN 0 521 56671 1 Groleau R July 2002 Galileo s Battle for the Heavens PBS Van Helden Albert 1995 On Motion The Galileo Project Galileo on Aristotle and Acceleration Retrieved 2008 05 24 The Apollo 15 Hammer Feather Drop Moon NASA Science Retrieved 5 September 2022 Further reading editAdler Carl G 1978 Galileo and the Tower of Pisa experiment American Journal of Physics 46 3 199 201 Bibcode 1978AmJPh 46 199A doi 10 1119 1 11165 Crease Robert P 2006 The Legend of the Leaning Tower In Hall Linley Erin ed The laws of motion an anthology of current thought Reprint of an article in Physics World February 2003 1st ed New York Rosen Pub Group pp 8 14 ISBN 9781404204089 Segre Michael 1989 Galileo Viviani and the tower of Pisa Studies in History and Philosophy of Science Part A 20 4 435 451 Bibcode 1989SHPSA 20 435S doi 10 1016 0039 3681 89 90018 6 External links editGalileo experiment on the Moon Galileo and the Leaning Tower of Pisa The Hammer Feather Drop in the world s biggest vacuum chamber Retrieved from https en wikipedia org w index php title Galileo 27s Leaning Tower of Pisa experiment amp oldid 1167597136, wikipedia, wiki, book, books, library,

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