![]() journal of record The Gazette (opens in new tab). In 1906, Thomson received the Nobel Prize for "his theoretical and experimental researches on the discharge of electricity through gases." In 1908, he was knighted and in 1912, he received the Order of Merit, which was founded to award those who had provided "exceptionally meritorious service in Our Crown Services or towards the advancement of Arts, Learning, Literature, and Science," according to the U.K. Thomson's scientific achievements didn't go unnoticed. In 1910, Thomson began to work with Francis Aston, their work on gas conductivity influenced the development of Aston's spectrometer and the discovery of isotopes, according to Chemistry World (opens in new tab). ![]() Thomson then successfully confirmed the latter theory was correct and these particles came to be known as electrons. One was that the rays were caused by some sort of radiation and the other was that they were streams of mysterious negatively charged particles, according to the University of Cambridge. There were two main theories at the time. – Tachyons: Facts about these faster-than-light particles – 10 mind-boggling things you should know about quantum physics These rays were first described in 1858 by German physicist Julius Plücker, according to The Royal Society (opens in new tab). Gases are usually poor conductors of electricity but when contained at low pressures and a voltage is applied via two electrodes, the gas becomes conductive.ĭuring this conduction, the negative cathode appears to emit bright lines known as cathode rays. Thomson carried out experiments that involved discharging electricity through gases at low pressures, according to the University of Cambridge (opens in new tab). History of electronsĮlectrons were discovered by English physicist Joseph John Thomson in 1897. The superscript letter that accompanies s, p d and f in electron configurations refers to the number of electrons in that orbital.įor more information on electron configurations and how to calculate them for yourself, check out this useful electron configuration resource (opens in new tab) from Cambridge Coaching. ![]() Subshells are designated by letters s, p, d and f which relate to the shape of the orbital, for example, s subshells have one spherical orbital, according to the Khan Academy. The configurations tell scientists how electrons are distributed between subshells. It doesn't fully represent the reality of what is going on concerning electron configuration.Įlectron configurations help chemists predict how an atom will behave in areas regarding conductivity, stability and boiling point, according to Los Alamos National Laboratory (opens in new tab). Though the Bohr Model can be a useful tool for understanding electron shell distribution and energy levels. ![]() Therefore electrons "fill up" the lower energy shells closest to the nucleus first before they move to higher-energy shells further out. This absorption or release of energy must be the same as the energy difference between the shells if an electron is to successfully move between them.Īccording to the Khan Academy, for an atom to be stable it must exhibit the lowest energy configuration it can. Electrons can move between these shells by either absorbing or releasing energy. Electron shells closest to the nucleus are lower in energy than those farther away. (Image credit: BirgerNiss via Getty Images)Įach electron shell has a different energy level. A bust of Niels Bohr is located in front of Copenhagen University, Denmark. In 1913, Niels Bohr developed an early atom model known as the Bohr Model.
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