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Chapter 5: Atomic Structure and the Periodic Table

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1 Chapter 5: Atomic Structure and the Periodic Table

2 Early Models of Atoms Democritus ( B.C.) first suggested the existence of these particles, which he called “atoms” for the Greek word for “uncuttable”. They lacked experimental support due to the lack of scientific testing at the time. John Dalton ( ) performed experiments to study the ratios in which elements combine in chemical reactions. Formulate hypotheses and theories to explain his observations, which became Dalton’s Atomic Theory. All elements are composed of tiny indivisible particles called atoms. Atoms of the same element are identical. The atoms of any one element are different from those of any other element. Atoms of different elements can physically mix together or combine in simple, whole number ratios to form compounds. Chemical reactions occur when atoms are separated, joined or rearranged. Atoms of one element, however, are never changed into atoms of another element as a result of a chemical reaction.

3 Size of an Atom Imagine grinding a copper coin (penny) into fine dust. Each speck in the small pile of shiny red dust would still have the properties of copper. If by some means you could still make the dust particles smaller you would eventually come upon a particle known as an atom. An atom is the smallest particle of an element that retains the properties of that element. A pure copper penny contains about 2.4 X 1022 atoms, compared to the Earth’s population of 6 X 106 people. If you lined 100,000,000 copper atoms up side by side they would produce a line 1 cm long.

4 Atomic Structure Atoms are now known to be divisible as they can be broken down to even smaller particles by atom smashers. J.J. Thomson ( ) discovered electrons using cathode ray tubes. Robert Millikan ( ) carried out experiments to determine the charge of an electron (-). He also determined the ratio of the charge to the mass of an electron. In 1886, E. Goldstein observed a cathode ray tube and found rays traveling in the opposite direction to that of the cathode rays. He called these rays canal rays and concluded that they must be positive particles, which are now called protons. In 1932, James Chadwick confirmed the existence of yet another subatomic particle: the neutron. Neutrons are subatomic particles with no charge but with a mass nearly equal to that of a proton. See simulation

5 After discovering these subatomic particles, scientists wondered how they were put together.
JJ Thomson thought since the electrons contributed such a small fraction of the atoms mass, they were probably an equal fraction of it size so it was like “Plum Pudding”. In 1911, Ernest Rutherford and his coworkers performed the Gold Foil Experiment to further study the phenomenon. Concluded that most of the mass of each atom and all of its positive charge reside in a very small, extremely dense region which is called the nucleus. The rest of the atom is mostly empty space.

6 Modern View of Atomic Structure
Since the time of Rutherford, physicists have learned much about the nucleus. Although many other parts have been discovered, chemists tend to only work with three main particles since they determine chemical behavior: Electron, Neutron and Proton Electron has a charge of X C and a proton has a charge of X C so this quantity of Coulombs is known as one electronic charge and atomic and subatomic particles usually have a charge that is multiples of this. Neutrons have no charge and are electrically neutral. Atoms have extremely small masses so instead of using the real numbers, atomic mass units (amus) are used. Protons and neutrons are very similar in mass but it would take 1836 electrons to equal 1 proton so most of an atoms mass is in the nucleus. Atoms are also extremely small with diameters between 1 X and 5 X so they are usually expressed with angstroms, which is

7 Atomic Number The number of protons in the nucleus of an atom of that element For an atom with no charge, this is also the number of electrons since the positive charge of the protons cancels the negative charge of the electrons. Practice problems #7-8 pg 115

8 Mass Number Most of the mass of an atom is found in the nucleus so the total number of protons and neutrons equals the mass number. If you know the atomic umber and mass number you can determine the composition of that atom. The composition can be represented by the shorthand notation using the element symbol, atomic number and mass number. For gold, Au is the symbol for the element and the atomic number is subscript and mass number is superscript on the left side. 197 Au 79 Practice problems 9-11 pg 116

9 Isotopes Atoms that have the same number of protons but different number of neutrons. Affects the shorthand notation of the element. Practice problems on pg 117

10 Atomic Mass Today we can determine the masses of individual atoms with a relative high degree of accuracy but since they are so small atomic mass units are used with hydrogen being 1 amu. The average atomic mass for an element due to the different isotopes, the mass of those isotopes and the natural percent abundance. Add up the different atomic mass of each atom and then divide by the number of atoms. Or, multiply mass by % and then determine average mass. Practice problems pg 120 and pg 121.

11 Mass Spectrometer The most direct and accurate means for determining atomic and molecular weights. See pg 48

12 Periodic Table The arrangement of elements in order of increasing atomic number, with elements having similar properties placed in vertical column. Atomic number, symbol, name, atomic weight are found in each square for each element. Some tables have additional information as well. Example Can be arranged according to metals, non-metals and metalloids, solid liquid and gases, and by family. Example


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