Important people in Chemistry
Chemistry
- The central science -The study of matter and the changes it may undergo - The science that seeks to understand the properties of matter by studying the structure of the particles that compose it
Wolfgang Pauli
Austrian theoretical physicist who was one of the pioneers of quantum physics. He received the 1945 Nobel Prize in Physics for his discovery of the Pauli Exclusion Principle.
Louis de Broglie
French physicist and aristocrat who postulated in his 1924 PhD thesis the wave nature of electrons and suggested that all matter has wave properties. This concept is known as the de Broglie hypothesis, as an example of wave-particle duality, and forms a central part of the theory of quantum mechanics. He won the 1929 Nobel Prize in Physics, after the wave-like behavior of matter was first experimentally demonstrated in 1927
Max Born
German physicist who won the Noble Prize for figuring out that the square of the wave function is the probability function associated with finding a particle at a specific point in space at a specific moment in time.
Werner Heisenberg
German theoretical physicist who was one of the three men credited with the discovery of modern mechanics. His breakthrough paper on quantum mechanics was published in 1925. He is also known for the Heinsenberg uncertainty principle, which he published in 1927
Ernest Rutherford
in a series of experiments (now called the famous gold foil experiments) performed between 1908 and 1913 with his colleagues Geiger and Marsden showed that over 99.9% of the mass of the atom is located in a very small positively charged region at the center which Rutherford termed the nucleus.
Robert Milikan
American physicist who in 1909 deduced the charge of a single electron with his now famous oil drop experiment
Ewin Schrodinger
Austrian-Irish physicist who was one of the three men credited with the discovery of modern quantum mechanics. His breakthrough paper on the wave mechanics formalism of quantum mechanics which presented what is now known as the Schrodinger equation was published in January of 1926. He is also known for his "Schrodinger's cat" thought-experiment which illustrates what he saw as the problem of the standard interpretation of quantum mechanics applied to everyday objects. Schrodinger did not wish to promote the idea of dead-and-live cats as a serious possibility; rather, he intended the example to illustrate the absurdity of the existing view of quantum mechanics.
J.J. Thomson
British physicist who measured the charge to mass ration of the electron in 1897. His work showed that cathode rays were composed of particles and showed that the atom was not indivisible. He proposed the plum-pudding-model of the atom
Thomas Young
British polymath who made notable contributions to the fields of vision, light, solid, mechanics, energy, physiology, language, musical harmony, and Egyptology. His now famous double-slit experiment of 1801 proved that light behaves as a wave and produces an interference pattern.
Niels Bohr
Danish physicist who created the old quantum theory in 1913 which envisioned electrons orbiting the nucleus in quantized orbits and editing radiation once when falling from a higher allowed orbit to a lower one. This theory reproduced line spectra for the hydrogen atom and for the helium cation, but failed for multi electron systems. For this work, he won the 1922 Nobel Prize in Physics. He became the chief spokesman for modern quantum theory once it was discovered in 1925 and 1926
John Dalton
English chemist who published the law of multiple proportions in 1804 and combined this law with the law of definite proportions and the law of conservation of mass and formulated a coherent atomic theory on 1808
Henry Moseley
English physicist who proposed that the atom contain in its nucleus a number of positive nuclear charges that is equal to its (atomic) number in the periodic table. Thus, he proposed that the periodic table be ordered by atomic number rather than atomic mass. He was shot and killed during World War I in the Battle of Gallipoli on August 10, 1915, at the age of 27. Experts have speculated that he could otherwise have been awarded the Nobel Prize in Physics in 1916.
Paul Dirac
English theoretical physicist who was one the three men credited with the discovery of modern quantum mechanics. His formulation of quantum mechanics allowed him to obtain the quantization rules in a more direct manner. For his work, published in 1926, he received a Ph.D from Cambridge University. In 1928 he proposed the Dirac equation as a relativistic equation of motion for the wave function of the electron. This work led him to predict the existence of the positron, the electron's antiparticle. The positron was observed experimentally by Carl Anderson in 1932 which was the same year Chadwick discovered the neutron... His equation also contributed to explaining the origin of quantum spin as a relativistic phenomenon.
Max Planck
First introduced the concept of quantized energy in a paper in 1900
Joseph Proust
French chemist who formulated the law of definite proportions in 1797
Antoine Lavoisier
French chemist who is often known as the father of modern chemistry; formulated the law of conservation of mass in 1789
Dimitriv Mendeleev
Russian chemist who formulated the Periodic Law which states that when the elements are arranged in order of increasing mass, certain sets of properties recur periodically. He arranged the known elements into the first periodic table where mass increased from left to right and where elements with similar properties fell on the same column. He used the Periodic Law not only to correct the then-accepted properties of some known elements, but also to predict the properties of eight elements that were yet to be discovered (gallium and germanium are two examples)
Albert Einstein
Used Planck's idea to solve the problem of the photoelectric effect in 1905 for which he later won the 1921 Nobel Prize in Physics. His solution showed that the energy of the light was quantized and that light had a particle nature as well as a wave nature.
Marie Curie
coined the word "radioactivity"; first woman to win a Nobel Prize (Nobel in Physics in 1903); first person to win two Nobel Prizes (Nobel Prize in Chemistry in 1911 for the discovery of radium and polonium); only person in history to win the Noble Prize in two different sciences.