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| − | + | Sir Humphry Davy, 1st Baronet, FRS (17 December 1778 – 29 May 1829) was an esteemed British chemist and physicist who vastly expanded chemical knowledge by isolating and identifying a host of new elements and by linking the action of acids to hydrogen instead of oxygen. He was also an inventor, and the mentor of Michael Faraday, who for many years was Davy’s assistant and whose researches in electricity and magnetism formed the foundation for our modern understanding of that field. | |
== Biography == | == Biography == | ||
| − | + | Davy was born in Penzance, Cornwall, United Kingdom, the son of Robert Davy and Grace Millett. He grew up in a household of humble means. When he turned 14, his parents managed to send him to Cardew’s school in Truro, where he put in a mixed performance. He left Cardew around the time of his father’s death a year later, and by age 17 was apprenticed to a physician. By age 19, he began more formal studies of chemistry and geometry. When he turned 20, he was appointed by a physician, Thomas Beddoes, as superintendent of the laboratory for the then newly-established Medical Pneumatic Institution of Bristol. The purpose of the institute was to investigate medical applications for newly discovered “airs” or gases such as oxygen, hydrogen and carbon dioxide, the chemical properties of which were beginning to become known. | |
| + | His earliest researches, dating back to 1799, led to his first important discovery, nitrous oxide, often known as laughing gas, which in more modern times has been used as an anesthetic during surgery. This discovery, and the fame it brought, led to his invitation by scientist Benjamin Thompson (Count Rumford) (1753-1814), to head the laboratory at the Royal Institution in London. Upon taking up his duties, Davy immediately instituted a series of lectures on chemistry, which became very popular and increased his fame. | ||
==Electrochemistry work== | ==Electrochemistry work== | ||
[[Image:Humphrydavy.jpg|thumb|left|100px|Humphry Davy in his youth.]] | [[Image:Humphrydavy.jpg|thumb|left|100px|Humphry Davy in his youth.]] | ||
| − | + | The experiments of Luigi Galvani, accounts of which were published in 1791, showed that electricity could be generated by placing metal in contact with the nerves and muscles in a frog’s leg. This principle was taken up by Alessandro Volta between 1796 and 1800, which, combined with his own observations, led him to create the first electric battery. It was later shown that water and other substances could be decomposed into their constituent elements through chemical action at the poles of a battery. This discovery captured the interest of Davy, who had at his disposal at the Royal Institution just such a battery. As a result of preliminary experiments, Davy proposed that the action that brings two elements together to form a compound is electrical. He set about to create a table of the energies needed to decompose a number of compounds through electrolysis. These results, and Davy’s conclusions, were set forward in the Bakerian Lecture of 1806, and established the direction research in electrochemical action was to take for decades hence. | |
| + | In 1807 Davy applied what was then one of the most powerful electric batteries to the decomposition of potassium and sodium salts, and succeeded in isolating the two metals and demonstrating that they were elements. The next year, using the same method, he isolated and identifying the elements calcium, magnesium, barium and strontium. In 1810, using an improved and more powerful version of his voltaic battery, Davy produced the first arc light using poles of carbon to produce an electric arc. | ||
| + | Chemists at this time believed, in accordance with the conclusions of Lavoisier, that acids were oxygen-based. But Davy’s investigation of hydrochloric acid (a compound of hydrogen and chlorine only), published in 1811, demonstrated that the compound contained no oxygen. He also clearly stated that chlorine, which at the time was thought to be a compound of hydrochloric acid and oxygen, was actually an element, and gave it the name it has today. This discovery led to the identification of iodine and flourine as elements as well, and to a new understanding of acids as hydrogen-based. | ||
==Retirement and further work== | ==Retirement and further work== | ||
| − | In 1812 | + | In 1812 Davy was knighted by King George III, gave a farewell lecture to the Royal Institution, and married a wealthy widow, Jane Apreece. |
| + | Later that year, Davy and his wife traveled through Scotland, but after their return to London, he was injured in an explosion in his laboratory while investigating a chemical compound of nitrogen and chlorine. It was this fateful injury that caused Davy to hire Michael Faraday as a secretary. Only months later, Faraday was asked by Davy to assume the role of laboratory assistant at the Royal Institution. By October 1813 Davy and his wife, accompanied by Faraday, who was also compelled to act as the couple’s valet, were on their way to France to collect a medal that Napoleon Bonaparte had awarded Davy for his electro-chemical work. Whilst in Paris, Davy was shown a mysterious substance isolated by Barnard Courtois. Davy pronounced it to be an element, which is now called iodine. | ||
| + | In Florence, in a series of experiments, Davy, with Faraday's assistance, succeeded in using the sun's rays to ignite diamond, and proved that it was composed of pure carbon. The entourage also visited Alessandro Volta. | ||
| + | Based on a series of lectures delivered at the request of the Board of Agriculture, Davy published ''Elements of Agricultural Chemistry'' in 1813. | ||
| + | After his return to England in 1815, Davy invented the Davy lamp, a safe method of illumination used by miners. He thought that this was one of his greatest achievements, but his claim to the invention, for which he demanded no royalties, was later challenged by others. | ||
| − | + | ===Later Years=== | |
| − | |||
| − | + | In 1818, Davy was awarded a [[baronet|baronetcy]] and two years later became president of the Royal Society, a post he would hold until 1827. | |
| − | In | + | In 1820s, Davy and his friend, William Hyde Wollaston, took up research in electricity and magnetism. Faraday also conducted research in the field, and published several papers, including one that demonstrated a way to create a motor from the magnetic force generated by a current-carrying wire. Davy felt that Faraday had taken credit for research that others had done, but Faraday refused to back down. This created friction between the two men, and apparently stalled Faraday’s research in the field, which he did not take up again until after Davy’s death. Davy was known to have been opposed to the election of Faraday as a fellow of the Royal Society, but Faraday was elected over his objections. |
| + | In 1824 Davy proposed and eventually mounted chunks of iron to the hull of a copper clad ship in the first use of cathodic protection. Whilst this was effective in preventing the corrosion of copper, it eliminated the anti-fouling properties of the copper hull, leading to the attachment of molluscs and barnacles to the "protected" hull, slowing these ships and requiring extensive time in dry docks for defouling operations. | ||
| + | Davy’s mother died in 1826, and Davy took sick soon after. His illness worsened over time, but he continued to write, completing “Hints and Experiments in Physical Science,” and a memoir. As his physical condition deteriorated, he traveled to Europe, spending some time in Italy, where he was joined by his wife. Davy appeared to be making a recovery, and the couple went to Geneva, where Davy, unexpectedly, died in the early morning hours of May 29th, 1829. | ||
| − | == | + | ==Assessment== |
| − | + | Davy left many piecemeal contributions to chemistry, but no overarching theory to which he could lay claim. Perhaps his most important discoveries were his researches into the nature of chlorine, which not only proved that the gas was an element, but also shed new light on the nature of acids. His identification of interatomic forces with electricity was also an important milestone. | |
| − | + | Faraday was able to push forward the boundaries of the breaking theories of his time. He did much to popularize science through his lectures, which were well attended and tickets to which were often scarce and hard to come by. | |
| − | + | In his later years, as his career waned, he seemed to be more of an obstacle to progress than the cheerleader he was in earlier years. Throwing cold water on a protégé who would later be hailed as one of the greatest scientists that ever lived was not the best way to improve one’s image for posterity. It would seem that he got what he wanted out of his career, but in the end found it all wanting, in contrast to Faraday, for example, whose religious convictions led him to believe that he was more a servant of the divine than a cheerleader for science. Still, Davy’s hunger for experimental truth may have rubbed off on Faraday, who by the estimation of some commentators was said to have been the greatest experimental scientist of all time. | |
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==In memory of Davy== | ==In memory of Davy== | ||
Revision as of 21:40, 17 March 2007
|
Sir Humphry Davy | |
|---|---|
| File:Sir Humphry Davy2.jpg Sir Humphry Davy | |
| Born |
December 17, 1778 |
| Died | May 29, 1829 |
| Field | Physicist and Chemist |
| Institutions | Royal Institution |
| Notable students | Michael Faraday |
| Known for | Electrolysis, Chlorine, Davy lamp |
Sir Humphry Davy, 1st Baronet, FRS (17 December 1778 – 29 May 1829) was an esteemed British chemist and physicist who vastly expanded chemical knowledge by isolating and identifying a host of new elements and by linking the action of acids to hydrogen instead of oxygen. He was also an inventor, and the mentor of Michael Faraday, who for many years was Davy’s assistant and whose researches in electricity and magnetism formed the foundation for our modern understanding of that field.
Biography
Davy was born in Penzance, Cornwall, United Kingdom, the son of Robert Davy and Grace Millett. He grew up in a household of humble means. When he turned 14, his parents managed to send him to Cardew’s school in Truro, where he put in a mixed performance. He left Cardew around the time of his father’s death a year later, and by age 17 was apprenticed to a physician. By age 19, he began more formal studies of chemistry and geometry. When he turned 20, he was appointed by a physician, Thomas Beddoes, as superintendent of the laboratory for the then newly-established Medical Pneumatic Institution of Bristol. The purpose of the institute was to investigate medical applications for newly discovered “airs” or gases such as oxygen, hydrogen and carbon dioxide, the chemical properties of which were beginning to become known. His earliest researches, dating back to 1799, led to his first important discovery, nitrous oxide, often known as laughing gas, which in more modern times has been used as an anesthetic during surgery. This discovery, and the fame it brought, led to his invitation by scientist Benjamin Thompson (Count Rumford) (1753-1814), to head the laboratory at the Royal Institution in London. Upon taking up his duties, Davy immediately instituted a series of lectures on chemistry, which became very popular and increased his fame.
Electrochemistry work
The experiments of Luigi Galvani, accounts of which were published in 1791, showed that electricity could be generated by placing metal in contact with the nerves and muscles in a frog’s leg. This principle was taken up by Alessandro Volta between 1796 and 1800, which, combined with his own observations, led him to create the first electric battery. It was later shown that water and other substances could be decomposed into their constituent elements through chemical action at the poles of a battery. This discovery captured the interest of Davy, who had at his disposal at the Royal Institution just such a battery. As a result of preliminary experiments, Davy proposed that the action that brings two elements together to form a compound is electrical. He set about to create a table of the energies needed to decompose a number of compounds through electrolysis. These results, and Davy’s conclusions, were set forward in the Bakerian Lecture of 1806, and established the direction research in electrochemical action was to take for decades hence. In 1807 Davy applied what was then one of the most powerful electric batteries to the decomposition of potassium and sodium salts, and succeeded in isolating the two metals and demonstrating that they were elements. The next year, using the same method, he isolated and identifying the elements calcium, magnesium, barium and strontium. In 1810, using an improved and more powerful version of his voltaic battery, Davy produced the first arc light using poles of carbon to produce an electric arc. Chemists at this time believed, in accordance with the conclusions of Lavoisier, that acids were oxygen-based. But Davy’s investigation of hydrochloric acid (a compound of hydrogen and chlorine only), published in 1811, demonstrated that the compound contained no oxygen. He also clearly stated that chlorine, which at the time was thought to be a compound of hydrochloric acid and oxygen, was actually an element, and gave it the name it has today. This discovery led to the identification of iodine and flourine as elements as well, and to a new understanding of acids as hydrogen-based.
Retirement and further work
In 1812 Davy was knighted by King George III, gave a farewell lecture to the Royal Institution, and married a wealthy widow, Jane Apreece. Later that year, Davy and his wife traveled through Scotland, but after their return to London, he was injured in an explosion in his laboratory while investigating a chemical compound of nitrogen and chlorine. It was this fateful injury that caused Davy to hire Michael Faraday as a secretary. Only months later, Faraday was asked by Davy to assume the role of laboratory assistant at the Royal Institution. By October 1813 Davy and his wife, accompanied by Faraday, who was also compelled to act as the couple’s valet, were on their way to France to collect a medal that Napoleon Bonaparte had awarded Davy for his electro-chemical work. Whilst in Paris, Davy was shown a mysterious substance isolated by Barnard Courtois. Davy pronounced it to be an element, which is now called iodine. In Florence, in a series of experiments, Davy, with Faraday's assistance, succeeded in using the sun's rays to ignite diamond, and proved that it was composed of pure carbon. The entourage also visited Alessandro Volta. Based on a series of lectures delivered at the request of the Board of Agriculture, Davy published Elements of Agricultural Chemistry in 1813. After his return to England in 1815, Davy invented the Davy lamp, a safe method of illumination used by miners. He thought that this was one of his greatest achievements, but his claim to the invention, for which he demanded no royalties, was later challenged by others.
Later Years
In 1818, Davy was awarded a baronetcy and two years later became president of the Royal Society, a post he would hold until 1827.
In 1820s, Davy and his friend, William Hyde Wollaston, took up research in electricity and magnetism. Faraday also conducted research in the field, and published several papers, including one that demonstrated a way to create a motor from the magnetic force generated by a current-carrying wire. Davy felt that Faraday had taken credit for research that others had done, but Faraday refused to back down. This created friction between the two men, and apparently stalled Faraday’s research in the field, which he did not take up again until after Davy’s death. Davy was known to have been opposed to the election of Faraday as a fellow of the Royal Society, but Faraday was elected over his objections. In 1824 Davy proposed and eventually mounted chunks of iron to the hull of a copper clad ship in the first use of cathodic protection. Whilst this was effective in preventing the corrosion of copper, it eliminated the anti-fouling properties of the copper hull, leading to the attachment of molluscs and barnacles to the "protected" hull, slowing these ships and requiring extensive time in dry docks for defouling operations. Davy’s mother died in 1826, and Davy took sick soon after. His illness worsened over time, but he continued to write, completing “Hints and Experiments in Physical Science,” and a memoir. As his physical condition deteriorated, he traveled to Europe, spending some time in Italy, where he was joined by his wife. Davy appeared to be making a recovery, and the couple went to Geneva, where Davy, unexpectedly, died in the early morning hours of May 29th, 1829.
Assessment
Davy left many piecemeal contributions to chemistry, but no overarching theory to which he could lay claim. Perhaps his most important discoveries were his researches into the nature of chlorine, which not only proved that the gas was an element, but also shed new light on the nature of acids. His identification of interatomic forces with electricity was also an important milestone. Faraday was able to push forward the boundaries of the breaking theories of his time. He did much to popularize science through his lectures, which were well attended and tickets to which were often scarce and hard to come by. In his later years, as his career waned, he seemed to be more of an obstacle to progress than the cheerleader he was in earlier years. Throwing cold water on a protégé who would later be hailed as one of the greatest scientists that ever lived was not the best way to improve one’s image for posterity. It would seem that he got what he wanted out of his career, but in the end found it all wanting, in contrast to Faraday, for example, whose religious convictions led him to believe that he was more a servant of the divine than a cheerleader for science. Still, Davy’s hunger for experimental truth may have rubbed off on Faraday, who by the estimation of some commentators was said to have been the greatest experimental scientist of all time.
In memory of Davy
- In the town of Penzance in Cornwall a statue of Davy, its most famous son, stands in front of the imposing Market House at the top of Market Jew Street, the town's main high street.
- A secondary school in Penzance is named Humphry Davy School [1]
- A local pub in Penzance is named the Sir Humphry Davy pub. It is located at the end of Market Jew Street.
- The lunar crater Davy is named after Sir Humphry Davy. It has a diameter of 34 km and coordinates of 11.8S, 8.1W.
Notes
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External links
- Works by Humphry Davy. Project Gutenberg
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