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Henry Cavendish was born on 10 October 1731 in [[Nice]], [[France]], where his family was living at the time. His mother was Lady Anne Grey, daughter of [[Henry Grey, 1st Duke of Kent]] and his father was [[Lord Charles Cavendish]], son of [[William Cavendish, 2nd Duke of Devonshire]]. The family traces its lineage across eight centuries to [[Normans|Norman]] times and was closely connected to many aristocratic families of Great Britain.
Henry Cavendish was born on 10 October 1731 in [[Nice]], [[France]], where his family was living at the time. His mother was Lady Anne Grey, daughter of [[Henry Grey, 1st Duke of Kent]] and his father was [[Lord Charles Cavendish]], son of [[William Cavendish, 2nd Duke of Devonshire]]. The family traces its lineage across eight centuries to [[Normans|Norman]] times and was closely connected to many aristocratic families of Great Britain.


No wikipedia i will not stop editing the page, and if you try to revert them i will just create a new account and do it all over agian! Thanks!
He also liek to where helicopter hats and run around his house making siren sounds as he ate chicken noodle soup. His mother was highly ashamed of how but he did not care because he was always to busy playing with the rabid raccoons he often tried to hug.
He also liek to where helicopter hats and run around his house making siren sounds as he ate chicken noodle soup. His mother was highly ashamed of how but he did not care because he was always to busy playing with the rabid raccoons he often tried to hug.

At age 11, Cavendish was a pupil at Peter Newcome's School in [[Hackney Central|Hackney]]. At age 18 (on 24 November 1749) he entered the [[University of Cambridge]] in St Peter's College, now known as [[Peterhouse]], but left four years later on 23 February 1753 without graduating.<ref>{{Venn|CVNS749H}}</ref><ref>{{cite book|last=Wilson|first=George|title=The life of the Hon. Henry Cavendish|publisher=Cavendish Society|year=1851|pages=17|chapter=1}}</ref> His first paper, "Factitious Airs", appeared thirteen years later, in 1766.

Cavendish was silent and solitary, and was viewed as somewhat eccentric by many. He only communicated with his female servants by notes and formed no close personal relationships outside his family. By one account, Cavendish had a back staircase added to his house in order to avoid encountering his housekeeper because he was especially shy of women. The contemporary accounts of his personality have led some modern commentators, such as [[Oliver Sacks]], to speculate that he had [[Asperger syndrome]], though he may merely have been painfully shy. His only social outlet was the Royal Society Club, whose members dined together before weekly meetings. Cavendish seldom missed these meetings, and was profoundly respected by his contemporaries. However his shyness made those who "sought his views... speak as if into vacancy. If their remarks were...worthy, they might receive a mumbled reply, but more often than not they would hear a peeved squeak (his voice appears to have been high-pitched) and turn to find an actual vacancy and the sight of Cavendish fleeing to find a more peaceful corner"<ref name="Bryson">Bryson, B. (2003), "The Size of the Earth": A Short History of Nearly Everything, 59 &ndash; 62.</ref> He also enjoyed collecting fine furniture exemplified by his purchase of a set of "ten inlaid satinwood chairs with matching [[cabriole leg]]ged sofa" documented to have been acquired by Cavendish himself.<ref name="McCormmach">McCormmach, R and Jungnickel, C (1996), [http://books.google.com/books?id=EUoLAAAAIAAJ&pg=PA337 ''Cavendish''], American Philosophical Society, Philadelphia, ISBN 0871692201, p. 242, 337.</ref>

Because of his asocial and secretive behaviour, Cavendish often avoided publishing his work, and much of his findings were not even told to his fellow scientists. In the late nineteenth century, long after his death, [[James Clerk Maxwell]] looked through Cavendish's papers and found things for which others had been given credit. Examples of what was included in Cavendish's discoveries or anticipations were [[Jeremias Benjamin Richter|Richter's Law of Reciprocal Proportions]], [[Ohm's Law]], [[Dalton's law|Dalton's Law of Partial Pressures]], principles of electrical conductivity (including Coulomb's Law), and [[Charles's Law|Charles's Law of Gases]].

A manuscript "Heat", tentatively dated between 1783 and 1790, describes a "mechanical theory of heat". Hitherto unknown, the manuscript was analyzed in the early 21st century.<!--unable to find specifics in the annoyingly long-winded and disorganized book on it--> Historian of science [[Russell McCormmach]] proposed that "Heat" is the only 18th century work prefiguring [[thermodynamics]]. Theoretical physicist Dietrich Belitz concluded that in this work Cavendish "got the nature of heat essentially right."<ref name="McCormmach2004">{{cite book|author=Russell McCormmach|title=Speculative truth: Henry Cavendish, natural philosophy, and the rise of modern theoretical science|year=2004|publisher=Oxford University Press|isbn=978-0-19-516004-8|pages=vii, 151, and 195}}</ref>

Cavendish died in 1810 (as one of the wealthiest men in Britain) and was buried, along with many of his ancestors, in the church that is now [[Derby Cathedral]] (and the road he used to live on in Derby has been named after him. The University of Cambridge's [[Cavendish Laboratory]] was endowed by one of Cavendish's later relatives, [[William Cavendish, 7th Duke of Devonshire]] (Chancellor of the University from 1861 to 1891).


==Gases and the atmosphere==
==Gases and the atmosphere==

Revision as of 13:53, 4 November 2011

For other people named Henry Cavendish, see Henry Cavendish (disambiguation).
Henry Cavendish
Henry Cavendish
Born(1731-10-10)10 October 1731
Nice, France
Died24 February 1810(1810-02-24) (aged 78)
London, England
NationalityUnited Kingdom
Alma materUniversity of Cambridge
Known forDiscovery of hydrogen
Measured the Earth's density
Scientific career
FieldsChemistry, physics

Henry Cavendish FRS (10 October 1731 – 24 February 1810) was a British scientist noted for his discovery of hydrogen or what he called "inflammable air".[1] He described the density of inflammable air, which formed water on combustion, in a 1766 paper "On Factitious Airs". Antoine Lavoisier later reproduced Cavendish's experiment and gave the element its name. Cavendish is also known for the Cavendish experiment, his measurement of the Earth's density, and early research into electricity.

Biography

Henry Cavendish was born on 10 October 1731 in Nice, France, where his family was living at the time. His mother was Lady Anne Grey, daughter of Henry Grey, 1st Duke of Kent and his father was Lord Charles Cavendish, son of William Cavendish, 2nd Duke of Devonshire. The family traces its lineage across eight centuries to Norman times and was closely connected to many aristocratic families of Great Britain.

No wikipedia i will not stop editing the page, and if you try to revert them i will just create a new account and do it all over agian! Thanks! He also liek to where helicopter hats and run around his house making siren sounds as he ate chicken noodle soup. His mother was highly ashamed of how but he did not care because he was always to busy playing with the rabid raccoons he often tried to hug.

Gases and the atmosphere

Cavendish's apparatus for making and collecting hydrogen[1]

Cavendish is considered to be one of the so-called pneumatic chemists of the eighteenth and nineteenth centuries, along with, for example, Joseph Priestley, Joseph Black, and Daniel Rutherford. By combining metals with strong acids, Cavendish made hydrogen (H2) gas, which he isolated and studied. Although others, such as Robert Boyle, had prepared hydrogen gas earlier, Cavendish is usually given the credit for recognizing its elemental nature.

Cavendish observed that hydrogen, which he called "inflammable air", reacts with oxygen, then known as "dephlogisticated air", to form water. James Watt and Antoine Lavoisier made a similar observation, resulting in a controversy as to who should receive credit for it. Cavendish however resisted Lavoisier's theory of chemical compounds, and attempted to explain his experiment in terms of phlogiston.[2][3]

Cavendish also accurately determined the composition of Earth's atmosphere. In a 1785 paper, he described experiments in which hydrogen and ordinary air were combined in known ratios, and then exploded with a spark of electricity. In each case, Cavendish observed both the formation of water and that the gas volume after the explosion was always less than it was before it. By careful measurements he was led to conclude that, "common air consists of one part of dephlogisticated air [oxygen], mixed with four of phlogisticated [nitrogen]".[4][5]

The same paper described an experiment in which Cavendish was able to remove, in modern terminology, both the oxygen and nitrogen gases from a sample of atmospheric air until only a small bubble of unreacted gas was left in the original sample. From this experiment Cavendish concluded that not more than 1/120 of the Earth's atmosphere was other than oxygen and nitrogen.[6] Although a seemingly small fraction, about 100 years later William Ramsay and Lord Rayleigh showed that this residual gas contained argon, an element that was unknown at the time.

Density of the Earth

Main article: Cavendish experiment

In addition to his achievements in chemistry, Cavendish is also known for the Cavendish experiment, the first to measure the force of gravity between masses in a laboratory and to produce an accurate value for Earth's density. His work led others to accurate values for the gravitational constant (G) and Earth's mass. Based on his results, one can calculate a value for G of 6.754 × 10−11N-m2/kg2,[7] which compares favourably with the modern value of 6.67428 × 10−11N-m2/kg2.[8]

The equipment Cavendish used was designed and built by geologist John Michell, who died before he could begin the experiment. The apparatus was sent in crates to Cavendish, who completed the experiment in 1797 – 1798,[9] and published the results.[10] Cavendish noticed that Michell's apparatus would be sensitive to temperature differences and induced air currents so he made modifications by isolating the apparatus in a separate room with external controls and telescopes for making observations.[11]

The experimental apparatus consisted of a torsion balance to measure the gravitational attraction between two 350-pound lead spheres and a pair of 2-inch 1.61-pound lead spheres.[9] Using this equipment, Cavendish found that the Earth's average density is 5.48 times greater than that of water. John Henry Poynting later noted that the data should have led to a value of 5.448,[12] and indeed that is the average value of the twenty-nine determinations Cavendish included in his paper.[13]

It is not unusual to find books that erroneously describe Cavendish's work as a measurement either of the gravitational constant (G) or the Earth's mass,[14][15] and this mistake has been pointed out by several authors.[16][17] In reality, Cavendish's stated goal was to measure the Earth's density, and his result was later used to calculate G. The first time that this constant was used was in 1873, almost 100 years after the Cavendish experiment.[18] Cavendish's results also can be used to calculate the Earth’s mass.

Cavendish performed his experiment in an outbuilding in the garden of his Clapham Commons estate. For years afterward, his neighbours would point out the building and tell their children that it was where the world was weighed.[19]

Electrical research

Cavendish wrote papers on electrical topics for the Royal Society[20][21] but the bulk of his electrical experiments did not become known until they were collected and published by James Clerk Maxwell a century later, in 1879, long after other scientists had been credited with the same results. According to the 1911 edition of Encyclopædia Britannica, among Cavendish's discoveries were the following:[22]

  • The concept of electric potential, which he called the "degree of electrification"
  • An early unit of capacitance, that of a sphere one inch in diameter
  • The formula for the capacitance of a plate capacitor
  • The concept of the dielectric constant of a material
  • The relationship between electric potential and current, now called Ohm's Law. (1781)
  • Laws for the division of current in parallel circuits, now attributed to Charles Wheatstone
  • Inverse square law of variation of electric force with distance, now called Coulomb's Law[23]

Selected writings

  • Cavendish, Henry (1921). Scientific Papers. Vol. 1. Cambridge: Cambridge University Press. - edited by James Clerk Maxwell and revised by Joseph Larmor
  • Cavendish, Henry (1921). Scientific Papers. Vol. 2. Cambridge: Cambridge University Press. - edited by James Clerk Maxwell and revised by Joseph Larmor
  • Cavendish, Henry (1879). The Electrical Researches of the Honourable Henry Cavendish. Cambridge: Cambridge University Press. - edited by James Clerk Maxwell

See also

Notes and references

  1. ^ a b Cavendish, Henry (1766). "Three Papers Containing Experiments on Factitious Air, by the Hon. Henry Cavendish". Philosophical Transactions. 56. The University Press: 141–184. doi:10.1098/rstl.1766.0019. Retrieved 6 November 2007.
  2. ^ A History of Chemistry by F. J. Moore, New York: McGraw-Hill (1918) pages 34–36
  3. ^ David Philip Miller (2004). Discovering water: James Watt, Henry Cavendish, and the nineteenth century 'Water Controversy'. Ashgate Publishing. p. 42. ISBN 978-0-7546-3177-4. Quoting from the monograph by James Riddick Partington, The Composition of Water, G. Bell and Sons, 1928, OCLC 3590255.
  4. ^ See page 376 of Cavendish, Henry (1784). "Experiments on Air". Philosophical Transactions of the Royal Society of London. 74: 119–153. Bibcode:1784RSPT...74..119C. The same passage is on page 44 of the Alembic Club reprint of the article.
  5. ^ See also pages 261 - 262 of Cavendish by Jungnickel and McCormmach (1996)
  6. ^ See page 382 of Cavendish, Henry (1784). "Experiments on Air". Philosophical Transactions of the Royal Society of London. 74: 119–153. Bibcode:1784RSPT...74..119C. The same passage is on page 50 of the Alembic Club reprint of the article.
  7. ^ Brush, Stephen G.; Holton, Gerald James (2001). Physics, the human adventure: from Copernicus to Einstein and beyond. New Brunswick, N.J: Rutgers University Press. p. 137. ISBN 0-8135-2908-5.{{cite book}}: CS1 maint: multiple names: authors list (link)
  8. ^ CODATA Value: Newtonian constant of gravitation
  9. ^ a b Bryson, B. (2003), "The Size of the Earth": A Short History of Nearly Everything, 60 – 62.
  10. ^ Cavendish, Henry (1798). "Experiments to Determine the Density of Earth". Philosophical Transactions of the Royal Society of London. 88: 469–526. doi:10.1098/rstl.1798.0022. JSTOR 106988. {{cite journal}}: Cite has empty unknown parameters: |month= and |coauthors= (help)
  11. ^ Magie, William Francis. A Source Book in Physics. Cambridge, Mass: Harvard University Press. p. 107.
  12. ^ Poynting, J. H. (1894), "The Mean Density of the Earth" London: Charles Griffin and Company, page 45.
  13. ^ Cavendish, Henry, "Experiments to Determine the Density of the Earth", reprinted in A Source Book in Geology, K. F. Mather and S. L. Mason, editors, New York: McGraw-Hill (1939), pages 103 – 107.
  14. ^ Tipler, P. A. and Mosca, G. (2003), Physics for Scientists and Engineers: Extended Version, W. H. Freeman ISBN 0-7167-4389-2.
  15. ^ Feynman, R. P. (1970), Feynman Lectures On Physics, Addison Wesley Longman , ISBN 0-201-02115-3
  16. ^ Clotfelter, B. E. (1987). "The Cavendish Experiment as Cavendish Knew It". American Journal of Physics. 55 (3): 210–213. Bibcode:1987AmJPh..55..210C. doi:10.1119/1.15214.
  17. ^ Falconer, I. (1999). "Henry Cavendish: the man and the measurement". Measurement, Science & Technology. 10 (6): 470–477. Bibcode:1999MeScT..10..470F. doi:10.1088/0957-0233/10/6/310.
  18. ^ Cornu, A. and Baille, J. B. (1873), Mutual determination of the constant of attraction and the mean density of the earth, C. R. Acad. Sci., Paris Vol. 76, 954-958.
  19. ^ Cite error: The named reference McCormmach was invoked but never defined (see the help page).
  20. ^ Cavendish, Henry (1771). "An Attempt to Explain Some of the Principal Phaenomena of Electricity, by means of an Elastic Fluid". Philosophical Transactions. 61: 564–677. doi:10.1098/rstl.1771.0056.
  21. ^ Cavendish, Henry (1776). "An Account of Some Attempts to Imitate the Effects of the Torpedo by Electricity". Philosophical Transactions. 66: 195–225. doi:10.1098/rstl.1776.0013.
  22. ^ "Electricity". Encyclopedia Britannica. 1911.
  23. ^ James Clerk Maxwell, ed., The Electrical Researches of the Honourable Henry Cavendish... (Cambridge, England: Cambridge University Press, 1879), pages 104-113: "Experiments on Electricity: Experimental determination of the law of electric force." Page 110: "Hence it follows that the electric attraction and repulsion must be inversely as the square of the distance..."

Further reading

  • Cavendish, Christa Jungnickel and Russell McCormmach, American Philosophical Society, 1996, ISBN 0-8716-9220-1, 414 pp.
  • Cavendish: The Experimental Life, Christa Jungnickel and Russell McCormmach, Bucknell University Press, 1999, ISBN 0-8387-5445-7, 814 pp.
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