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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Science and technology in Germany | 2/5 | https://en.wikipedia.org/wiki/Science_and_technology_in_Germany | reference | science, encyclopedia | 2026-05-05T03:40:32.655595+00:00 | kb-cron |
Johannes Kepler discovered the laws according to which planets are moving around the Sun, who were called Kepler's laws after him. With his introduction to calculating with logarithms, Kepler contributed to the spread of this type of calculation. In mathematics, a numerical method for calculating the volume of wine barrels with integrals was named former Kepler's barrel rule. He made optics to a subject of scientific investigation and confirmed the discoveries made with the telescope by his Italian contemporary Galileo Galilei (1564–1642). He worked on the theory of the telescope and invented the refracting astronomical or Keplerian telescope, which involved a considerable improvement over the Galilean telescope. Kepler also made the invention of the valveless gear pump, because a mine owner needed a device to pump water out of his mine.
=== Physics ===
Otto von Guericke (1602–1686) was a scientist, inventor, mathematician and physicist from Magdeburg. He is best known for his experiments on air pressure using the Magdeburg hemispheres. With the invention of the vacuum pump he laid the foundation of vacuum technology. Daniel Gabriel Fahrenheit (1686–1736) was a physicist and inventor of measuring instruments from Danzig. The temperature unit degrees Fahrenheit (°F) was named after him. Gustav Kirchhoff (1824–1887) was a physicist from Königsberg who made a particular contribution to the study of electricity. Today, Kirchhoff is best known for Kirchhoff's circuit laws, and for introducing the concept of a black body, which contributed to the emergence of quantum mechanics. However, Kirchhoff's circuit laws were discovered as early as 1833 by Carl Friedrich Gauss (1777–1855) during his experiments on electricity. With Robert Bunsen (1811–1899) he developed flame spectroscopy in 1859, which can be used to detect chemical elements with high specificity. Bunsen was a chemist from Göttingen, and together with Kirchhoff discovered the elements caesium and rubidium in 1861. He perfected the Bunsen burner, which is named after him, and invented the Bunsen cell and a grease-spot photometer. The work of Albert Einstein (1879–1955), best known for developing the theory of relativity, and Max Planck (1858–1947), he is known for the Planck constant, was crucial to the foundation of modern physics, which Werner Heisenberg (1901–1976) and Erwin Schrödinger (1887–1961) developed further. They were preceded by such key physicists as Joseph von Fraunhofer (1787–1826), who discovered the Fraunhofer lines in spectroscopy, and Hermann von Helmholtz (1857–1894), among others. Wilhelm Conrad Röntgen (1845–1923) discovered X-rays in 1895, an accomplishment that made him the first winner of the Nobel Prize in Physics in 1901 and eventually earned him an element name, roentgenium. Heinrich Rudolf Hertz's (1857–1894) work in the domain of electromagnetic radiation were pivotal to the development of modern telecommunication; the unit of frequency was named in his honor "Hertz". Mathematical aerodynamics was developed in Germany, especially by Ludwig Prandtl. Karl Schwarzschild (1873–1916) was an astrophysicist from Frankfurt am Main. He was professor and director of the Göttingen Observatory from 1901 to 1909. There he was able to work together with scientists like David Hilbert (1862–1943) and Hermann Minkowski (1864–1909). Schwarzschild works on relativity provided the first exact solutions to the field equations of Albert Einstein's general relativity – one for an uncharged, non-rotating spherically symmetric body and one for a static isotropic void around a solid body. Schwarzschild did some fundamental works on classical black holes. This is why some properties of black holes got their name, namely the Schwarzschild metric and the Schwarzschild radius. The center of a non-rotating, uncharged black hole is called the Schwarzschild singularity. Paul Forman in 1971 argued the remarkable scientific achievements in quantum physics were the cross-product of the hostile intellectual atmosphere whereby many scientists rejected Weimar Germany and Jewish scientists, revolts against causality, determinism and materialism, and the creation of the revolutionary new theory of quantum mechanics. The scientists adjusted to the intellectual environment by dropping Newtonian causality from quantum mechanics, thereby opening up an entirely new and highly successful approach to physics. The "Forman Thesis" has generated an intense debate among historians of science.
==== Deutsche Physik ====
The so-called Deutsche Physik, 'German physics' was a movement that some German physicists hold during the Nazi period, which mixed physics with racist views. They rejected new discoveries in physics as being too theoretical and advocated a stronger emphasis on empirical evidence. This physics was influenced by anti-Semitic ideas that were widespread in the polarized political climate of the Weimar Republic. In addition, some leading theoretical physicists at that time were of Jewish descent. Leading representatives of this ideology were the Bavarian physicist Johannes Stark (1874–1957, Nobel Prize in Physics in 1919) and the German-Hungarian physicist Philipp Lenard (1862–1947, Nobel Prize winner of 1905). Notably, the latter labeled Albert Einstein's contributions to science as Jewish physics.
=== Chemistry ===
Georgius Agricola gave chemistry its modern name. He is generally referred to as the father of mineralogy and as the founder of geology as a scientific discipline. Justus von Liebig (1803–1873) made major contributions to agricultural and biological chemistry, and is one of the principal founders of organic chemistry. At the start of the 20th century, Germany garnered fourteen of the first thirty-one Nobel Prizes in Chemistry, starting with Hermann Emil Fischer (1852–1919) in 1902 and until Carl Bosch (1874–1940) and Friedrich Bergius (1884–1949) in 1931. Otto Hahn (1879–1968) was a pioneer of radioactivity and radiochemistry with the discovery of nuclear fission together with the Austrian scientist Lise Meitner (1878–1968) and Fritz Strassmann (1902–1980) in 1938, the scientific and technological basis for the utilization of atomic energy. The bio-chemist Adolf Butenandt (1903–1995) independently worked out the molecular structure of the primary male sex hormone of testosterone and was the first to successfully synthesize it from cholesterol in 1935.
=== Engineering ===