Encyclopedia, Difference between revisions of "Hans Christian Ørsted" - New World
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==Early life and studies== | ==Early life and studies== | ||
| − | Ørsted developed his interest in science while working as a young boy for his father, Søren Christian Ørsted, who owned a pharmacy. He and his brother, [[Anders Sandøe Ørsted]], received most of their early education through self-study at home, and went to Copenhagen in 1793 to take entrance exams for [[Copenhagen University]]. The brothers passed and distinguished themselves academically at the University. In 1797, Oersted won a gold medal from the university for a paper, ''On the Limits of Poetry and Prose''. The next year, he captured still another prize for a paper on a medical topic, and passed his pharmaceutical examinations. He was awarded a doctorate in 1799 | + | Ørsted developed his interest in science while working as a young boy for his father, Søren Christian Ørsted, who owned a pharmacy. He and his brother, [[Anders Sandøe Ørsted]], received most of their early education through self-study at home, and went to Copenhagen in 1793 to take entrance exams for [[Copenhagen University]]. The brothers passed and distinguished themselves academically at the University. In 1797, Oersted won a gold medal from the university for a paper, ''On the Limits of Poetry and Prose''. The next year, he captured still another prize for a paper on a medical topic, and passed his pharmaceutical examinations. He was awarded a doctorate in 1799 for his dissertation, ''The Architectonicks of Natural Metaphysics''. |
| − | In 1801, Oersted began investigations with the newly invented electric battery of Alessandro Volta | + | In 1801, Oersted began investigations with the newly invented electric battery of Alessandro Volta, and published some observations on acids and alkali generated by an electric current. |
| − | |||
| − | + | The same year, he received a travel [[scholarship]] and public grant that enabled him to spend three years traveling in [[Europe]]. In [[Germany]], he met [[Johann Ritter]], a physicist who believed there was a connection between [[electricity]] and [[magnetism]]. The connection made sense to Ørsted since he believed in the unity of nature and that a relationship therefore must exist between most natural phenomena. | |
| − | Their conversations drew Ørsted into the study of physics. | + | Their conversations drew Ørsted into the study of physics, and Oersted translated one of Ritter's works into French as a favor. |
| + | |||
| + | Oersted was unable to immediately obtain a chair in physics, but continued his experiments and lectures, receiving a grant from the state for this purpose. It wasn't until 1806, however, that he was offered and accepted a professorship at [[Copenhagen University]]. There he continued his research with electric currents and acoustics. Under his guidance the University developed a comprehensive physics and chemistry program and established new laboratories. | ||
| + | |||
| + | In 1809, Oersted published the first edition of the ''Manual of Mechanical Physics''. The work was updated in 1844. | ||
| + | |||
| + | He took another excursion about Europe in 1812-1813, and published Views of the Chemical Laws of Nature. Upon his return in 1814, he married. He and his wife would become the parents of three sons and four daughters. in the remaining years of the decade, he continued to lecture, while furthering his investigations into electricity. | ||
==Electromagnetism== | ==Electromagnetism== | ||
[[Image:Statue of Hans Christian Øersted, Øerstedsparken, Copenhagen.jpg|thumb|200px|left|Statue of Ørsted in Ørstedsparken, in Copenhagen]] | [[Image:Statue of Hans Christian Øersted, Øerstedsparken, Copenhagen.jpg|thumb|200px|left|Statue of Ørsted in Ørstedsparken, in Copenhagen]] | ||
| + | |||
| + | Oersted long believed that some connection would be found between electricity and magnetism. He observed, for example, that a bolt of lightning can change the poles of a compass. He also noted that an electric current produces light and heat in a wire. He felt that a mroe substantial connection between electricity and magnetism would be uncovered. | ||
| + | |||
While preparing for an evening lecture on 21 April 1820, Ørsted developed an [[experiment]] which provided evidence that surprised him. As he was setting up his materials, he noticed a compass needle deflected from magnetic north when the electric current from the battery he was using was switched on and off. This deflection convinced him that magnetic fields radiate from all sides of a wire carrying an electric current, just as light and heat do, and that it confirmed a direct relationship between electricity and magnetism. | While preparing for an evening lecture on 21 April 1820, Ørsted developed an [[experiment]] which provided evidence that surprised him. As he was setting up his materials, he noticed a compass needle deflected from magnetic north when the electric current from the battery he was using was switched on and off. This deflection convinced him that magnetic fields radiate from all sides of a wire carrying an electric current, just as light and heat do, and that it confirmed a direct relationship between electricity and magnetism. | ||
At the time of discovery, Ørsted did not suggest any satisfactory explanation of the phenomenon, nor did he try to represent the phenomenon in a mathematical framework. However, three months later he began more intensive investigations. Soon thereafter he published his findings, proving that an electric current produces a magnetic field as it flows through a wire. The [[CGS]] [[unit]] of [[magnetic induction]] ([[oersted]]) is named in honor of his contributions to the field of electromagnetism. | At the time of discovery, Ørsted did not suggest any satisfactory explanation of the phenomenon, nor did he try to represent the phenomenon in a mathematical framework. However, three months later he began more intensive investigations. Soon thereafter he published his findings, proving that an electric current produces a magnetic field as it flows through a wire. The [[CGS]] [[unit]] of [[magnetic induction]] ([[oersted]]) is named in honor of his contributions to the field of electromagnetism. | ||
| − | His findings resulted in intensive research throughout the scientific community in electrodynamics. They influenced French physicist [[André-Marie Ampère]]'s developments of a single mathematical form to represent the magnetic forces between current-carrying conductors | + | His findings resulted in intensive research throughout the scientific community in electrodynamics. They influenced French physicist [[André-Marie Ampère]]'s developments of a single mathematical form to represent the magnetic forces between current-carrying conductors. |
Ørsted was not the first person to discover that electricity and magnetism are related. He was preceded in this discovery by 18 years by [[Gian Domenico Romagnosi]], an Italian legal scholar. An account of Romagnosi's discovery was published in 1802 in an Italian newspaper, but it was overlooked by the scientific community. | Ørsted was not the first person to discover that electricity and magnetism are related. He was preceded in this discovery by 18 years by [[Gian Domenico Romagnosi]], an Italian legal scholar. An account of Romagnosi's discovery was published in 1802 in an Italian newspaper, but it was overlooked by the scientific community. | ||
Revision as of 13:45, 27 April 2007
| Hans Christian Ørsted |
|---|
 |
| Born |
| August 14, 1777 Rudkøbing, Denmark |
| Died |
| March 9, 1851 Copenhagen, Denmark |
Hans Christian Ørsted (spelled Oersted when the Danish letter Ø is unavailable) (August 14,1777 – March 9, 1851) was a Danish physicist and chemist, influenced by the thinking of Immanuel Kant. He is best known for discovering the relationship between electricity and magnetism known as electromagnetism.
Early life and studies
Ørsted developed his interest in science while working as a young boy for his father, Søren Christian Ørsted, who owned a pharmacy. He and his brother, Anders Sandøe Ørsted, received most of their early education through self-study at home, and went to Copenhagen in 1793 to take entrance exams for Copenhagen University. The brothers passed and distinguished themselves academically at the University. In 1797, Oersted won a gold medal from the university for a paper, On the Limits of Poetry and Prose. The next year, he captured still another prize for a paper on a medical topic, and passed his pharmaceutical examinations. He was awarded a doctorate in 1799 for his dissertation, The Architectonicks of Natural Metaphysics.
In 1801, Oersted began investigations with the newly invented electric battery of Alessandro Volta, and published some observations on acids and alkali generated by an electric current.
The same year, he received a travel scholarship and public grant that enabled him to spend three years traveling in Europe. In Germany, he met Johann Ritter, a physicist who believed there was a connection between electricity and magnetism. The connection made sense to Ørsted since he believed in the unity of nature and that a relationship therefore must exist between most natural phenomena.
Their conversations drew Ørsted into the study of physics, and Oersted translated one of Ritter's works into French as a favor.
Oersted was unable to immediately obtain a chair in physics, but continued his experiments and lectures, receiving a grant from the state for this purpose. It wasn't until 1806, however, that he was offered and accepted a professorship at Copenhagen University. There he continued his research with electric currents and acoustics. Under his guidance the University developed a comprehensive physics and chemistry program and established new laboratories.
In 1809, Oersted published the first edition of the Manual of Mechanical Physics. The work was updated in 1844.
He took another excursion about Europe in 1812-1813, and published Views of the Chemical Laws of Nature. Upon his return in 1814, he married. He and his wife would become the parents of three sons and four daughters. in the remaining years of the decade, he continued to lecture, while furthering his investigations into electricity.
Electromagnetism
Oersted long believed that some connection would be found between electricity and magnetism. He observed, for example, that a bolt of lightning can change the poles of a compass. He also noted that an electric current produces light and heat in a wire. He felt that a mroe substantial connection between electricity and magnetism would be uncovered.
While preparing for an evening lecture on 21 April 1820, Ørsted developed an experiment which provided evidence that surprised him. As he was setting up his materials, he noticed a compass needle deflected from magnetic north when the electric current from the battery he was using was switched on and off. This deflection convinced him that magnetic fields radiate from all sides of a wire carrying an electric current, just as light and heat do, and that it confirmed a direct relationship between electricity and magnetism.
At the time of discovery, Ørsted did not suggest any satisfactory explanation of the phenomenon, nor did he try to represent the phenomenon in a mathematical framework. However, three months later he began more intensive investigations. Soon thereafter he published his findings, proving that an electric current produces a magnetic field as it flows through a wire. The CGS unit of magnetic induction (oersted) is named in honor of his contributions to the field of electromagnetism.
His findings resulted in intensive research throughout the scientific community in electrodynamics. They influenced French physicist André-Marie Ampère's developments of a single mathematical form to represent the magnetic forces between current-carrying conductors.
Ørsted was not the first person to discover that electricity and magnetism are related. He was preceded in this discovery by 18 years by Gian Domenico Romagnosi, an Italian legal scholar. An account of Romagnosi's discovery was published in 1802 in an Italian newspaper, but it was overlooked by the scientific community.
Aluminum
In 1825, Ørsted made a significant contribution to chemistry by producing aluminum for the first time.
Death and legacy
Hans Christian Ørsted died in 1851, and was buried in the Assistens Cemetery in Copenhagen.
Today, the buildings which are home to the Department of Chemistry and the Institute for Mathematical Sciences at the University of Copenhagen, are named The H.C. Ørsted Institute in his honor.
See also
ReferencesISBN links support NWE through referral fees
<<This article needs at least 3 reliable references, properly formatted.>> Lives of the Illustrious (The Biographical Magazine), J Passmore Edwards London 1852 V II, 297-310
The Soul In Nature, by Hans Christian Oersted, tr. L. and J.B. Horner, 1852 Henry G. Bohn. London (From the biographical sketch by P.L. Moller) vii-xxii
External links
| Persondata | |
|---|---|
| NAME | Ørsted, Hans Christian |
| ALTERNATIVE NAMES | |
| SHORT DESCRIPTION | Danish physicist and chemist |
| DATE OF BIRTH | August 14, 1777 |
| PLACE OF BIRTH | Rudkøbing, Denmark |
| DATE OF DEATH | March 9, 1851 |
| PLACE OF DEATH | Copenhagen, Denmark |
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