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Gustav Robert Kirchhoff (; 12 March 1824 – 17 October 1887) was a German physicist who contributed to the fundamental understanding of
Kirchhoff formulated his Kirchhoff's circuit laws, circuit laws, which are now ubiquitous in electrical engineering, in 1845, while still a student. He completed this study as a seminar exercise; it later became his doctoral dissertation. He was called to the University of Heidelberg in 1854, where he collaborated in spectroscopic work with Robert Bunsen. In 1857, he calculated that an electric signal in a electrical resistance, resistanceless wire travels along the wire at the speed of light. He proposed his Kirchhoff's law of thermal radiation, law of thermal radiation in 1859, and gave a proof in 1861. Together Kirchhoff and Bunsen invented the spectroscopy, spectroscope, which Kirchhoff used to pioneer the identification of the Sun#Composition, elements in the Sun, showing in 1859 that the Sun contains sodium. He and Bunsen discovered caesium and rubidium in 1861.
At Heidelberg he ran a mathematico-physical seminar, modelled on Franz Ernst Neumann's, with the mathematician Leo Koenigsberger. Among those who attended this seminar were Arthur Schuster and Sofia Kovalevskaya.
He contributed greatly to the field of
#A solid, liquid, or dense gas excited to emit light will radiate at all wavelengths and thus produce a continuous spectrum.
#A low-density gas excited to emit light will do so at specific wavelengths, and this produces an emission spectrum.
# If light composing a continuous spectrum passes through a cool, low-density gas, the result will be an absorption spectrum.
Kirchhoff did not know about the existence of energy levels in atoms. The existence of discrete spectral lines was known since Fraunhofer lines, Fraunhofer discovered them in 1814. And that the lines formed a discrete mathematical pattern was described by Johann Balmer in 1885. Joseph Larmor explained the splitting of the spectral lines in a magnetic field known as the Zeeman Effect by the oscillation of electrons. But these discrete spectral lines were not explained as electron transitions until the Bohr model of the atom in 1913, which helped lead to quantum mechanics.
online
. ** Vol. 2: ''Mathematische Optik''. B. G. Teubner, Leipzig 1891 (Herausgegeben von Kurt Hensel
online
. ** Vol. 3: ''Electricität und Magnetismus''. B. G. Teubner, Leipzig 1891 (Herausgegeben von Max Planck
online
. ** Vol. 4
''Theorie der Wärme''
B. G. Teubner, Leipzig 1894, Herausgegeben von Max Planck
HathiTrust full text
Partial English translation available in Magie, William Francis, ''A Source Book in Physics'' (1963). Cambridge: Harvard UP. p. 354-360.
''Mapping the Spectrum. Techniques of Visual Representation in Research and Teaching''
Oxford: OUP, 2002.
Kirchhoff's 1857 paper on the speed of electrical signals in a wire
*
Open Library
{{DEFAULTSORT:Kirchhoff, Gustav Gustav Kirchhoff, 1824 births 1887 deaths Optical physicists 19th-century German inventors Discoverers of chemical elements Scientists from Königsberg Spectroscopists Fluid dynamicists University of Königsberg alumni Academic staff of the University of Breslau Academic staff of Heidelberg University Academic staff of the Humboldt University of Berlin Honorary Fellows of the Royal Society of Edinburgh Foreign Members of the Royal Society Foreign associates of the National Academy of Sciences Members of the Royal Netherlands Academy of Arts and Sciences Recipients of the Pour le Mérite (civil class) 19th-century German physicists Rare earth scientists Fellows of the Royal Society of Edinburgh Recipients of the Matteucci Medal Members of the Göttingen Academy of Sciences and Humanities
electrical circuit
An electrical network is an interconnection of electrical components (e.g., batteries, resistors, inductors, capacitors, switches, transistors) or a model of such an interconnection, consisting of electrical elements (e.g., voltage sources, ...
s, spectroscopy
Spectroscopy is the field of study that measures and interprets the electromagnetic spectra that result from the interaction between electromagnetic radiation and matter as a function of the wavelength or frequency of the radiation. Matter wa ...
, and the emission of black-body radiation by heated objects.
He coined the term black-body radiation in 1862. Several different sets of concepts are named "Kirchhoff's laws" after him, concerning such diverse subjects as black-body radiation and spectroscopy, electrical circuits, and thermochemistry. The Bunsen–Kirchhoff Award for spectroscopy is named after him and his colleague, Robert Bunsen.
Life and work
Gustav Kirchhoff was born on 12 March 1824 in Königsberg, Prussia, the son of Friedrich Kirchhoff, a lawyer, and Johanna Henriette Wittke. His family were Lutherans in the Evangelical Church of Prussia. He graduated from the Albertus University of Königsberg in 1847 where he attended the mathematico-physical seminar directed by Carl Gustav Jacob Jacobi, Franz Ernst Neumann and Friedrich Julius Richelot. In the same year, he moved to Berlin, where he stayed until he received a professorship at Breslau. Later, in 1857, he married Clara Richelot, the daughter of his mathematics professor Richelot. The couple had five children. Clara died in 1869. He married Luise Brömmel in 1872.
Kirchhoff formulated his Kirchhoff's circuit laws, circuit laws, which are now ubiquitous in electrical engineering, in 1845, while still a student. He completed this study as a seminar exercise; it later became his doctoral dissertation. He was called to the University of Heidelberg in 1854, where he collaborated in spectroscopic work with Robert Bunsen. In 1857, he calculated that an electric signal in a electrical resistance, resistanceless wire travels along the wire at the speed of light. He proposed his Kirchhoff's law of thermal radiation, law of thermal radiation in 1859, and gave a proof in 1861. Together Kirchhoff and Bunsen invented the spectroscopy, spectroscope, which Kirchhoff used to pioneer the identification of the Sun#Composition, elements in the Sun, showing in 1859 that the Sun contains sodium. He and Bunsen discovered caesium and rubidium in 1861.
At Heidelberg he ran a mathematico-physical seminar, modelled on Franz Ernst Neumann's, with the mathematician Leo Koenigsberger. Among those who attended this seminar were Arthur Schuster and Sofia Kovalevskaya.
He contributed greatly to the field of spectroscopy
Spectroscopy is the field of study that measures and interprets the electromagnetic spectra that result from the interaction between electromagnetic radiation and matter as a function of the wavelength or frequency of the radiation. Matter wa ...
by formalizing three laws that describe the optical spectrum, spectral composition of light emitted by incandescent objects, building substantially on the discoveries of David Alter and Anders Jonas Ångström. In 1862, he was awarded the Rumford Medal for his researches on the fixed lines of the solar spectrum, and on the inversion of the bright lines in the spectra of artificial light. In 1875 Kirchhoff accepted the first chair dedicated specifically to theoretical physics at Berlin.
He also contributed to optics, carefully solving the wave equation to provide a solid foundation for Huygens' principle (and correct it in the process).D. Miller, "Huygens’s wave propagation principle corrected", Opt. Lett. 16, 1370–1372 (1991)
In 1864, he was elected as a member of the American Philosophical Society.
In 1884, he became foreign member of the Royal Netherlands Academy of Arts and Sciences.
Kirchhoff died in 1887, and was buried in the Alter St.-Matthäus-Kirchhof, St Matthäus Kirchhof Cemetery in Schöneberg, Berlin (just a few meters from the graves of the Brothers Grimm). Leopold Kronecker is buried in the same cemetery.
Kirchhoff's circuit laws
Kirchhoff's first law is that the algebraic sum of currents in a network of conductors meeting at a point (or node) is zero. The second law is that in a closed circuit, the directed sums of the voltages in the system is zero.Kirchhoff's three laws of spectroscopy
#A solid, liquid, or dense gas excited to emit light will radiate at all wavelengths and thus produce a continuous spectrum.
#A low-density gas excited to emit light will do so at specific wavelengths, and this produces an emission spectrum.
# If light composing a continuous spectrum passes through a cool, low-density gas, the result will be an absorption spectrum.
Kirchhoff did not know about the existence of energy levels in atoms. The existence of discrete spectral lines was known since Fraunhofer lines, Fraunhofer discovered them in 1814. And that the lines formed a discrete mathematical pattern was described by Johann Balmer in 1885. Joseph Larmor explained the splitting of the spectral lines in a magnetic field known as the Zeeman Effect by the oscillation of electrons. But these discrete spectral lines were not explained as electron transitions until the Bohr model of the atom in 1913, which helped lead to quantum mechanics.
Kirchhoff's law of thermal radiation
It was Kirchhoff's law of thermal radiation in which he proposed an unknown universal law for radiation that led Max Planck to the discovery of the quantum of action leading to quantum mechanics.Kirchhoff's law of thermochemistry
Kirchhoff showed in 1858 that, in thermochemistry, the variation of the Standard enthalpy of reaction, heat of a chemical reaction is given by the difference in heat capacity between products and reactants: :. Integration of this equation permits the evaluation of the heat of reaction at one temperature from measurements at another temperature.Works
* * * ''Vorlesungen über mathematische Physik''. 4 vols., B. G. Teubner, Leipzig 1876–1894. ** Vol. 1: ''Mechanik''. 1. Auflage, B. G. Teubner, Leipzig 1876online
. ** Vol. 2: ''Mathematische Optik''. B. G. Teubner, Leipzig 1891 (Herausgegeben von Kurt Hensel
online
. ** Vol. 3: ''Electricität und Magnetismus''. B. G. Teubner, Leipzig 1891 (Herausgegeben von Max Planck
online
. ** Vol. 4
''Theorie der Wärme''
B. G. Teubner, Leipzig 1894, Herausgegeben von Max Planck
See also
* Kirchhoff equations * Kirchhoff integral theorem * Laplacian matrix, Kirchhoff matrix * Kirchhoff stress tensor * Thermal simulations for integrated circuits#Kirchhoff transformation, Kirchhoff transformation * Kirchhoff's diffraction formula * Black body#Kirchhoff's perfect black bodies, Kirchhoff's perfect black bodies * Kirchhoff's theorem * Kirchhoff–Helmholtz integral * Kirchhoff–Love plate theory * Alternative stress measures#Piola–Kirchhoff stress, Piola–Kirchhoff stress * Hyperelastic material#Saint Venant–Kirchhoff model, Saint Venant–Kirchhoff model * Stokes's law of sound attenuation, Stokes–Kirchhoff attenuation formula * Circuit rank * Computational aeroacoustics * Atomic emission spectroscopy, Flame emission spectroscopy * Spectroscope * Kirchhoff Institute of Physics * List of German inventors and discoverersNotes
References
* * *HathiTrust full text
Partial English translation available in Magie, William Francis, ''A Source Book in Physics'' (1963). Cambridge: Harvard UP. p. 354-360.
Further reading
* * * * Klaus Hentschel: Gustav Robert Kirchhoff und seine Zusammenarbeit mit Robert Wilhelm Bunsen, in: Karl von Meyenn (Hrsg.) ''Die Grossen Physiker'', Munich: Beck, vol. 1 (1997), pp. 416–430, 475–477, 532–534. * Klaus Hentschel''Mapping the Spectrum. Techniques of Visual Representation in Research and Teaching''
Oxford: OUP, 2002.
Kirchhoff's 1857 paper on the speed of electrical signals in a wire
*
External links
* *Open Library
{{DEFAULTSORT:Kirchhoff, Gustav Gustav Kirchhoff, 1824 births 1887 deaths Optical physicists 19th-century German inventors Discoverers of chemical elements Scientists from Königsberg Spectroscopists Fluid dynamicists University of Königsberg alumni Academic staff of the University of Breslau Academic staff of Heidelberg University Academic staff of the Humboldt University of Berlin Honorary Fellows of the Royal Society of Edinburgh Foreign Members of the Royal Society Foreign associates of the National Academy of Sciences Members of the Royal Netherlands Academy of Arts and Sciences Recipients of the Pour le Mérite (civil class) 19th-century German physicists Rare earth scientists Fellows of the Royal Society of Edinburgh Recipients of the Matteucci Medal Members of the Göttingen Academy of Sciences and Humanities