A Brief History Of Atomic Theory

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A Brief History Of Atomic Theory Essay, Research Paper

In the beginning of the 1800s John Dalton, an English scientist did work some

work on gases, which lead him to the creation of a complex system of

symbols for all known elements at the time. He took all the information he had

collected, along with the Laws of Conservation of Mass, Definite Composition

and Multiple Proportions and updated Aristotle?s theory of matter with the

Atomic Theory of Matter, which stated: – All matter is composed of tiny,

indivisible particles called atoms. – Atoms of an element have identical

properties. – Atoms of different elements have different properties. – Atoms of

two or more elements can combine in constant ratios to form new

substances. In the late 1800s a man named J. J. Thomson did some

experiments, who?s results did not agree with Dalton?s Atomic Theory.

Thomson passed electricity though gases, my his experiments, he theorized

the existence negatively charged subatomic particles he called electrons.

From this theory Thomson created a model of a atom which had the electrons

placed evenly inside the atoms. In the early 1900s a Japanese scientist

named H. Nagaoka designed an atom model as a large sphere surrounded

by a ring of negatively charged electrons. Also, during the early 1900s

(1898-1907) a physicist named Ernest Rutherford worked on experiments to

test current atom models. His experiments involved shooting rays of alpha

particles (small positively charged particles) though very thin pieces of gold

foil. Based on Thomson?s model, Rutherford hypothesized that the alpha

particles would travel through the gold foil mostly unaffected by the gold. He

was right. Most of the particles did pass through, but a small amount of

particles were deflected. From this Rutherford hypothesized that the atoms

must have a small positively charged core, the nucleus, which is surrounded

by mainly empty space, which contains the electrons. In 1914 Rutherford

made up the word ?proton,? which were subatomic particles that had a

positive charge. A student of Rutherford?s, a man named H. G. J. Moseley

was the one who gathered the empirical support for Rutherford?s work. In his

experiments he used X-rays to show that the positive charge in the nucleus

grows by one, from each element to the other. From this Moseley devised the

concept of Atomic Number. In 1932, James Chadwick established that the

nucleus must contain heavy neutral particles as well as positive ones, this was

to explain the entire mass of the atom. He called the neutral subatomic

particles neutrons. I Danish scientist named Niels Bohr created a theory

explaining the periodic law. Bohr took the Quantum Theory of Energy,

proposed by Max Planck (in 1900), and the relationship between the sudden

end of the periodic table. Using this, periodic law, and some experimental

evidence, Bohr hypothesized the following: – Each electron has a fixed

quantity of energy related to the circular orbit in which the election is found. -

Electrons cannot exist between orbits, but they can move to unfilled orbits if a

quantum of energy is absorbed or released. – The higher the energy level of

an electron, the further it is from the nucleus. – The maximum number of

electrons in the first three energy levels is 2, 8, and 8. – An atom with a

maximum number of electrons in its outermost level is stable, that is, it is

unreactive. Bohr?s theory was developed mathematically, so as to explain the

visible spectrum of hydrogen gas, as well as to predict other lines of ultraviolet

and infrared light. One of the great things about Bohr?s theory is that it

explains periodic law. The theory states that properties of elements can be

explained by the way that their electrons are arranged. Due to the fact that

orbits can only contain certain amounts of electons. Quantum mechanics is a

highly mathematical theory developed in the 1920s that describes the

positioning of electrons as patterns of probability, instead of distinct orbits. It

explains the positioning of protons, and atomic numbers. It describes the

energy levels of electrons outside the nucleus, stability of atoms, and the

amounts of electrons that can exist at certain levels. It is a very complex

theory which explains much about atomic theory.

Bibliography

Fabio Abbattista, Valeria Carofiglio, and Mario Koppen.

Scout algorithms and genetic algorithms: A comparative study. In Wolfgang Banzhaf, Jason Daida, Agoston E. Eiben, Max H. Garzon, Vasant Honavar, Mark Jakiela, and Robert E. Smith, editors, Proceedings of the Genetic and Evolutionary Computation Conference , volume 1, page 769, Orlando, Florida, USA, 13-17 July 1999. Morgan Kaufmann.

GECCO-99 A joint meeting of the eighth international conference on genetic algorithms (ICGA-99) and the fourth annual genetic programming conference (GP-99)

R. J. Abbott.

Niches as a GA divide-and-conquer strategy. In Art Chapman and Leonard Myers, editors, Proceedings of the Second Annual AI Symposium for the California State University . California State University, 1991.

Neil Abernathy.

Using a genetic algorithm to select beam configurations for radiosurgery of the brain. In John R. Koza, editor, Genetic Algorithms and Genetic Programming at Stanford 2000 , pages 1-7. Stanford Bookstore, Stanford, California, 94305-3079 USA, June 2000.

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Zoe Abrams.

Complimentary selection as an alternative method for population reproduction. In John R. Koza, editor, Genetic Algorithms and Genetic Programming at Stanford 2000 , pages 8-15. Stanford Bookstore, Stanford, California, 94305-3079 USA, June 2000.

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