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Atomic Theory Throughout history man has attempted to explain the nature of matter. Democritus, an early Greek, proposed that matter was composed of tiny indivisible particles called atoms, meaning indivisible. It was not until 1807 that the atomic theory was thoroughly revised by John Dalton. Dalton’s theory stated • All matter is made up of tiny particles called atoms that cannot be split into smaller particles (wrong). • Atoms cannot be created or destroyed • All atoms of the same element have the same properties and atoms of different elements have different properties. • Atoms of different elements can combine to form new substances. His ideas marked the beginning of the modern atomic theory. The work of later scientists such as JJ Thomson, Lord Rutherford and Neils Bohr established a workable model of the atom. Thomson Rutherford Bohr Dalton stated that the atom is a hard, dense sphere. Thomson in 1903 stated that the atom is a mass of positive charge and contained negative electrons. p+ eep+ p+ eeep+ eep+ e- e- p+ eep+ p+ e- p+ ep+ Rutherford’s Model in 1911 described the atom as having a dense nucleus surrounded by electrons. e- e- eee-ee- ee- Bohr developed a model in 1913 that had a dense nucleus and electrons that move in fixed orbits (shells) around the nucleus in a “cloud” of activity http://micro.magnet.fsu.edu/electroma g/java/rutherford/ http://particleadventure.or g James Chadwick (1885 - 1962) developed a new model of the atom in 1932. Similar in many ways to other models, his showed the nucleus made up of particles called neutrons. 10,000,000 atoms placed side by side would measure only 1 cm. The particles inside atoms are called subatomic particles. In the middle of every atom is its nucleus. The nucleus is made of the proton and neutron. A third type of subatomic particle spins around the nucleus, it is called the electron. Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron Proton Neutron Electron The electron is by far the smallest of these subatomic particles. Their mass is only 1/1840th the mass of a proton. Even though protons are much larger than electrons, they both have the same amount of electrical charge. Protons have a positive charge (+). Electrons have a negative charge (-). Neutrons have no charge (0). Particles with opposite electrical charges are attracted to each other, in the same way that magnets with opposite poles stick together. Got a problem, ask a chemist, they have solutions. A small piece of sodium which lived in a test tube fell in love with a bunsen burner. “Oh bunsen, my flame, I melt whenever I see you” the sodium said. “It’s just a phase you’re going through” replied the Bunsen burner. Particles with the same electrical charges repel each other, in the same way that magnets with the same poles push apart. Atoms have the same number of protons as electrons, so their electrical charges cancel each other out, and are called neutral. Atoms are normally neutral and have no overall electrical charge. This is not the case with ions. Ions are charged atoms that have gained or lost electrons. When atoms are unbalanced, it causes them to combine or react. Electrons travel in shells. The first shell contains 2 electrons, the second 8, third 8, the fourth 18 and so on. N If an atom gains an electron it becomes negatively charged. If an atom loses an electron it becomes positively charged. The number of neutrons of an atom can vary. The different atoms caused by varying numbers of neutrons is called an isotope. Different electrons can contain different amounts of energy. The farther an electron is from the nucleus, the more energy it contains. The number of protons an atom has determines the type of element. If the number of protons change, the type of atom changes.
