![]() ![]() ![]() ![]() The proton was found to weigh 1.6726 × 10 -24 grams or about 1,836 times as much as an electron. Now, along with the charge/mass ratio calculated by Thomson, the mass of the electron could be calculated and was found to equal 9.11 × 10 -28 grams (a decimal with 27 zeros before the 9).Ībout five years later, the charge and mass of the proton were calculated. By adjusting the charge on the plates as he observed the droplets under a microscope, he was able to suspend the droplets midway between the two plates and with this information calculate the charge of the electron. Millikan devised a clever experiment in which he produced a very fine spray of charged oil droplets and allowed them to fall between two charged plates. He measured how the beam deflected or bent when placed in a magnetic field and used this information to calculate mathematically the ratio of the charge on the electron to the mass of the electron. Thomson studied rays of negative particles (later discovered to be electrons) in partially evacuated tubes. The first of the experiments to uncover knowledge about the absolute weight of parts of the atom were done early in the twentieth century by J. So far, all the knowledge about atomic weights was relative to the weight of hydrogen as one unit. Unlike Dalton's atomic weights, the weights published by Berzelius match quite well the atomic weights used today. Berzelius who published his list of the weights of 54 elements in 1828. If each oxygen molecule was composed of two oxygen atoms, then it was the molecule and not the atom that split apart to form two volumes of water.Īlthough other scientists contributed to knowledge about atomic weights, much of the experimental work that was used to improve the Table of Atomic Weights was done by J. The difficulty of explaining how one volume of oxygen could form two volumes of water without violating the current theory that atoms were indivisible was not resolved until the 1850s when Avogadro's explanation that molecules of gases, such as hydrogen and oxygen, existed as diatomic molecules (molecules with two atoms joined together) was finally accepted. Then in 1811, Amedeo Avogadro proposed that equal volumes of gases have the same number of particles if measured at the same temperature and pressure. For example, at the same temperature and pressure, two volumes of hydrogen react with one volume of oxygen and form two volumes of water. In 1809, Gay-Lussac observed that gases react with each other in very simple proportions. Knowledge about absolute formulas of substances came mainly from the work of two chemists. Dalton used experimental results and similar reasoning to prepare the very first Table of Atomic Weights, but because of the lack of knowledge about the real formulas for substances, many of the weights were incorrect and had to be modified later. Of course, if the ratio between hydrogen and oxygen in water were not one to one, but some other ratio, the weight of oxygen would have to be adjusted accordingly. Using this hypothesis and the fact that hydrogen was assigned a weight of one unit, it follows that oxygen, which is eight times heavier than hydrogen, would have a weight of eight units. He assumed that nature is basically very simple and, therefore, one atom of hydrogen combines with only one atom of oxygen. Lacking any knowledge about how many atoms of hydrogen and oxygen combine in a molecule of water, Dalton again had to make some assumptions. ![]() The weight of oxygen could then be calculated because of earlier work by Humboldt and Gay-Lussac, who found that water consisted of only two elements, hydrogen and oxygen, and that there were eight parts of oxygen for every one part of hydrogen. Hydrogen was chosen as the unit of comparison because it was the lightest substance known and the weights of the other elements would be very close to whole numbers. Rather, these first measurements were made by comparing weights of various atoms to hydrogen. Because atoms were much too small to be seen or measured by any common methods, absolute weights of atoms could not be determined. ![]()
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