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Benjamin Thompson

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Benjamin Thompson

Sir Benjamin Thompson
Born (1753-03-26)March 26, 1753
Woburn, Massachusetts
Died August 21, 1814(1814-08-21) (aged 61)
Residence Woburn, Massachusetts, England, Germany (Bavaria), and France
Citizenship United Kingdom
Nationality British
Fields Physics
Known for Thermodynamics
Influenced Humphry Davy
Notable awards Copley Medal (1792)
Rumford Medal (1800)

Sir Benjamin Thompson, Count Rumford, Holy Roman Empire.


  • Early years 1
  • Bavarian maturity 2
    • Experiments on heat 2.1
    • Mechanical equivalent of heat 2.2
  • Rumford's calorific and frigorific radiation 3
    • Inventions and design improvements 3.1
    • Industrial furnaces 3.2
    • Light and photometry 3.3
  • Later life 4
  • Honours 5
  • See also 6
  • Bibliography 7
  • References 8
  • Further reading 9
  • External links 10

Early years

Thompson was born in rural Woburn, Massachusetts, on March 26, 1753; his birthplace is preserved as a museum. He was educated mainly at the village school, although he sometimes walked to Cambridge near ten miles distant with the older Loammi Baldwin to attend lectures by Professor John Winthrop of Harvard College. At the age of 13 he was apprenticed to John Appleton, a merchant of nearby Salem. Thompson excelled at his trade, and coming in contact with refined and well educated people for the first time, adopted many of their characteristics including an interest in science. While recuperating in Woburn in 1769 from an injury, Thompson conducted experiments concerning the nature of heat and began to correspond with Loammi Baldwin and others about them. Later that year he worked for a few months for a Boston shopkeeper and then apprenticed himself briefly, and unsuccessfully, to a doctor in Woburn.

Thompson's prospects were dim in 1772 but in that year they changed abruptly. He met, charmed and married a rich and well-connected heiress named Sarah Rolfe (née Walker). Her father was a minister, and her late husband left her property at Concord, New Hampshire, then called Rumford. They moved to Portsmouth, New Hampshire, and through his wife's influence with the governor, he was appointed a major in the New Hampshire Militia.

Painting by Thomas Gainsborough 1783

When the Lord George Germain.

While working with the British armies in America he conducted experiments to measure the force of gunpowder, the results of which were widely acclaimed when published in 1781 in the Philosophical Transactions of the Royal Society.[2] On the strength of this he arrived in London at the end of the war with a reputation as a scientist.

Bavarian maturity

The beer garden "Am chinesischen Turm" in the Englischer Garten in Munich

In 1785, he moved to workhouses for the poor. He also invented Rumford's Soup, a soup for the poor,[3] and established the cultivation of the potato in Bavaria. He studied methods of cooking, heating, and lighting, including the relative costs and efficiencies of wax candles, tallow candles, and oil lamps.[4] On Prince Charles' behalf he created the Englischer Garten in Munich in 1789; it remains today and is known as one of the largest urban public parks in the world. He was elected a Foreign Honorary Member of the American Academy of Arts and Sciences in 1789.[5] For his efforts, in 1791 Thompson was made a Count of the Holy Roman Empire; he took the name "Rumford" for Rumford, New Hampshire, which was an older name for the town of Concord where he had been married, becoming Reichsgraf von Rumford (English: Count Rumford). .[6]

Experiments on heat

His experiments on gunnery and explosives led to an interest in heat. He devised a method for measuring the specific heat of a solid substance but was disappointed when Johan Wilcke published his parallel discovery first.

Thompson next investigated the insulating properties of various materials, including fur, wool and feathers. He correctly appreciated that the insulating properties of these natural materials arise from the fact that they inhibit the convection of air. He then made the somewhat reckless, and incorrect, inference that air and, in fact, all gases, were perfect non-conductors of heat.[7][8] He further saw this as evidence of the argument from design, contending that divine providence had arranged for fur on animals in such a way as to guarantee their comfort.

In 1797, he extended his claim about non-conductivity to liquids.[9] The idea raised considerable objections from the scientific establishment, John Dalton[10] and John Leslie[11] making particularly forthright attacks. Instrumentation far exceeding anything available in terms of accuracy and precision would have been needed to verify Thompson's claim. Again, he seems to have been influenced by his theological beliefs[12] and it is likely that he wished to grant water a privileged and providential status in the regulation of human life.[13]

He is considered as the founder of the sous-vide food preparation method due to his experiment with a mutton shoulder. He described this method in one of his essays.[14]

Mechanical equivalent of heat

However, Rumford's most important scientific work took place in Munich, and centred on the nature of heat, which he contended in An Experimental Enquiry Concerning the Source of the Heat which is Excited by Friction (1798) was not the caloric of then-current scientific thinking but a form of motion. Rumford had observed the frictional heat generated by boring cannon at the arsenal in Munich. Rumford immersed a cannon barrel in water and arranged for a specially blunted boring tool. He showed that the water could be boiled within roughly two and a half hours and that the supply of frictional heat was seemingly inexhaustible. Rumford confirmed that no physical change had taken place in the material of the cannon by comparing the specific heats of the material machined away and that remaining.

Rumford argued that the seemingly indefinite generation of heat was incompatible with the caloric theory. He contended that the only thing communicated to the barrel was motion.

Rumford made no attempt to further quantify the heat generated or to measure the mechanical equivalent of heat. Though this work met with a hostile reception, it was subsequently important in establishing the laws of conservation of energy later in the 19th century.

Rumford's calorific and frigorific radiation

He explained Pictet's experiment, which demonstrates the reflection of cold, by supposing that all bodies emit invisible rays, undulations in the ethereal fluid. [15] He did experiments to support his theories of calorific and frigorific radiation and said the communication of heat was the net effect of calorific (hot) rays or frigorific (cold) rays and the rays emitted by the object. When an object absorbs radiation from a warmer object (calorific rays) its temperature rises, and when it absorbs radiation from a colder object (frigorific rays) it temperature falls. See note 8, "An enquiry concerning the nature of heat and the mode of its communication" Philosophical Transactions of the Royal Society, starting at page 112.

Inventions and design improvements

Section of Rumford fireplace

Thompson was an active and prolific inventor, developing improvements for chimneys, fireplaces and industrial furnaces, as well as inventing the double boiler, a kitchen range, and a drip coffeepot. He invented a percolating coffee pot following his pioneering work with the Bavarian Army, where he improved the diet of the soldiers as well as their clothes.

The Rumford fireplace created a sensation in London when he introduced the idea of restricting the chimney opening to increase the updraught, which was a much more efficient way to heat a room than earlier fireplaces. He and his workers modified fireplaces by inserting bricks into the hearth to make the side walls angled, and added a choke to the chimney to increase the speed of air going up the flue. The effect was to produce a streamlined air flow, so all the smoke would go up into the chimney rather than lingering, entering the room, and often choking the residents. It also had the effect of increasing the efficiency of the fire, and gave extra control of the rate of combustion of the fuel, whether wood or coal. Many fashionable London houses were modified to his instructions, and became smoke-free.

Industrial furnaces

Cross section of a Rumford furnace, with the fuel chamber at the left

Thompson also significantly improved the design of kilns used to produce quicklime, and Rumford furnaces were soon being constructed throughout Europe. The key innovation involved separating the burning fuel from the limestone, so that the lime produced by the heat of the furnace was not contaminated by ash from the fire.

Thompson became a celebrity when news of his success spread. His work was also very profitable, and much imitated when he published his analysis of the way chimneys worked. In many ways, he was similar to Benjamin Franklin, who also invented a new kind of heating stove.

The retention of heat was a recurring theme in his work, as he is also credited with the invention of thermal underwear.[16]

Light and photometry

Rumford worked in photometry, the measurement of light. He made a photometer and introduced the standard candle, the predecessor of the candela, as a unit of luminous intensity. His standard candle was made from the oil of a sperm whale, to rigid specifications.[17] He also published studies of "illusory" or subjective complementary colours, induced by the shadows created by two lights, one white and one coloured; these observations were cited and generalized by Michel-Eugène Chevreul as his "law of simultaneous colour contrast" in 1839.[18]

Later life

Satirical cartoon by James Gillray showing a Royal Institution lecture on pneumatics with Davy holding the bellows and Count Rumford looking on at extreme right. Dr Garnett is the lecturer holding the victim's nose

After 1799, he divided his time between France and England. With Sir Joseph Banks, he established the Royal Institution of Great Britain in 1799. The pair chose Sir Humphry Davy as the first lecturer. The institution flourished and became world famous as a result of Davy's pioneering research. His assistant, Michael Faraday established the Institution as a premier research laboratory, and also justly famous for its series of public lectures popularizing science. That tradition continues to the present, and the Royal Institution Christmas lectures attract large audiences through their TV broadcasts.

Thompson endowed the Rumford medals of the Royal Society and the American Academy of Arts and Sciences, and endowed a professorship at Harvard University. In 1803, he was elected a foreign member of the Royal Swedish Academy of Sciences.

In 1804, he married Marie-Anne Lavoisier, the widow of the great French chemist Antoine Lavoisier, his American wife—the one he abandoned in America upon the outbreak of the American Revolution—having died since his emigration. Thompson separated from his second wife after 3 years, but Thompson settled in Paris and continued his scientific work until his death on August 21, 1814. Thompson is buried in the small cemetery of Auteuil in Paris, just across from Adrien-Marie Legendre. Upon his death, his daughter from his first marriage, Sarah Thompson, inherited his title as Countess Rumford.


See also


    • Collected Works of Count Rumford, Volume I, The Nature of Heat, (1968).
    • Collected Works of Count Rumford, Volume II, Practical Applications of Heat, (1969).
    • Collected Works of Count Rumford, Volume III, Devices and Techniques, (1969).
    • Collected Works of Count Rumford, Volume IV, Light and Armament, (1970).
    • Collected Works of Count Rumford, Volume V, Public Institutions, (1970).


  1. ^ "Sir Benjamin Thompson, count von Rumford". Encyclopædia Britannica. Encyclopædia Britannica Online. Encyclopædia Britannica Inc., 2014. Web. 01 Jul. 2014 .
  2. ^
  3. ^
  4. ^
  5. ^
  6. ^
  7. ^ Rumford (1786) "New experiments upon heat" Philosophical Transactions of the Royal Society p.273
  8. ^ Rumford (1792) "Experiments upon heat" Philosophical Transactions of the Royal Society p.48-80
  9. ^ Rumford (1797) "On the propagation of heat in fluids" Nicholson's Journal 1 pp298-341
  10. ^ Cardwell (1971) p.99
  11. ^
  12. ^ Rumford (1804) "An enquiry concerning the nature of heat and the mode of its communication" Philosophical Transactions of the Royal Society p.77
  13. ^ Cardwell (1971) p.102
  14. ^
  15. ^
  16. ^ Prof. Michael Fowler of the University of Virginia, lecture notes, and Have I Got News For You, first transmitted December 16, 2005, BBC1.
  17. ^
  18. ^

Further reading

External links

  • Eric Weisstein's World of Science. "Rumford, Benjamin Thompson". (1753–1814)
  • "The Contribution of Count Rumford to Domestic Life in Jane Austen’s TimeDr. Hugh C. Rowlinson " An article not only detailing the Rumford fireplace, but also Rumford's life and other achievements.
  • Works by Benjamin Rumford at Project Gutenberg
  • %31%37%35%33-%31%38%31%34")+%41%4E%44+%52%75%6D%66%6F%72%64+) Works by or about Benjamin Thompson at Internet Archive
  • A Biography of Benjamin Thompson, Jr. Written in 1868
  • Escutcheons of Science
  • Count Rumford's Birth Place and Museum
  • Count Rumford Fireplaces website

Texts on Wikisource:

Political offices
Preceded by
W. Knox
T. De Grey
Under-Secretary of State for the Colonies
with W. Knox

Succeeded by
W. Knox
J. Fisher
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