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Woldemar Voigt
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Woldemar Voigt (1850–1919)
Born (1850-09-02)2 September 1850
Died 13 December 1919(1919-12-13) (aged 69)
Nationality German
Alma mater University of Königsberg
Known for
Kelvin–Voigt material
Awards ForMemRS (1913)
Scientific career
Fields Physicist
Institutions University of Göttingen
Doctoral advisor Franz Ernst Neumann
Doctoral students Paul Drude

Woldemar Voigt (German: [foːkt]; 2 September 1850 – 13 December 1919) was a German physicist, who taught at the Georg August University of Göttingen. Voigt eventually went on to head the Mathematical Physics Department at Göttingen and was succeeded in 1914 by Peter Debye, who took charge of the theoretical department of the Physical Institute. In 1921, Debye was succeeded by Max Born.

Biography

Voigt was born in Leipzig, and died in Göttingen. He was a student of Franz Ernst Neumann. He worked on crystal physics, thermodynamics and electro-optics. His main work was the Lehrbuch der Kristallphysik (textbook on crystal physics), first published in 1910. He discovered the Voigt effect in 1898. The word tensor in its current meaning was introduced by him in 1898. Voigt profile and Voigt notation are named after him. He was also an amateur musician and became known as a Bach expert (see External links).

In 1887 Voigt formulated a form of the Lorentz transformation between a rest frame of reference and a frame moving with speed v in the x direction. However, as Voigt himself said, the transformation was aimed at a specific problem and did not carry with it the idea of a general coordinate transformation, as is the case in relativity theory.

The Voigt transformation

In modern notation Voigt's transformation was

x' = x - vt,
y' = y/\gamma,
z' = z/\gamma,
t' = t - vx/c^2,

where \gamma = 1/\sqrt{1 - v^2/c^2}. If the right-hand sides of his equations are multiplied by \gamma, they become the modern Lorentz transformation. Hermann Minkowski said in 1908 that the transformations which play the main role in the principle of relativity were first examined by Voigt in 1887. Also Hendrik Lorentz (1909) is on record as saying that he could have taken these transformations into his theory of electrodynamics, if only he had known of them, rather than developing his own. It is interesting then to examine the consequences of these transformations from this point of view. Lorentz might then have seen that the transformation introduced relativity of simultaneity, and also time dilation. However, the magnitude of the dilation was greater than the now accepted value in the Lorentz transformations. Moving clocks, obeying Voigt's time transformation, indicate an elapsed time \Delta t_\text{Voigt} = \gamma^{-2} \Delta t = \gamma^{-1} \Delta t_\text{Lorentz}, while stationary clocks indicate an elapsed time \Delta t.

Since Voigt's transformation preserves the speed of light in all frames, the Michelson–Morley experiment and the Kennedy–Thorndike experiment can not distinguish between the two transformations. The crucial question is the issue of time dilation. The experimental measurement of time dilation by Ives and Stillwell (1938) and others settled the issue in favor of the Lorentz transformation.

See also

Kids robot.svg In Spanish: Woldemar Voigt para niños

  • Dyakonov–Voigt wave
  • Stark effect
  • German inventors and discoverers
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