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Chapter 2 (Essentials of General Chemistry, 2nd Edition) (Ebbing and Gammon) Atoms, Molecules and Ions Atomic Theory of Matter John Dalton (British Chemist) - basic theory of modern chemistry - all matter whether element, compound or mixture is composed of small particles called atoms - purpose of atomic theory: to provide explanation of the structure of matter in terms of different combinations of very small particles Karen Hattenhauer (Fall 2007) 2 Postulates of Dalton s Atomic Theory 1.) All matter is composed of indivisible atoms. An atom is an extremely small particle of matter that retains its identity during chemical reactions. 2.) An element is a type of matter composed of only one kind of atom, each atom of a given kind having the same properties. 3.) A compound is a type of matter composed of atoms of two or more elements chemically combined in fixed proportions. 4.) A chemical reaction consists of the rearrangement of the atoms present in the reacting substances to give new chemical combinations present in the substances formed by the reaction. Karen Hattenhauer (Fall 2007) 3 1 Atomic Symbols and Models Atomic symbol - a one- or two-letter notation used to represent an atom corresponding to a particular element - convention: first letter capital second letter lowercase - origin: from the name of the element from a name in another language (Latin) Atomic Models - Dalton used spheres to represent atoms and used combinations of these spheres to represent compounds - still used today but more refined Karen Hattenhauer (Fall 2007) 4 Representations of Molecules Karen Hattenhauer (Fall 2007) 5 Deductions from Dalton s Atomic Theory Explains: 1.) difference between element and compound 2.) Law of Mass Conservation - states that total mass remains constant during a chemical reaction 3.) Law of Definite Proportions - compound is type of matter containing atoms of two or more elements is definite proportions 4.) Law of Multiple Proportions - when two elements form more than one compound, the masses of one element in these compounds for a fixed mass of the other element are in ratios of small whole numbers Karen Hattenhauer (Fall 2007) 6 2 The Structure of the Atom Two Particles: 1.) nucleus (atom s central core) - positively charged - contains most of atoms mass 2.) electron (outside atom s central core) - negatively charged - very light Karen Hattenhauer (Fall 2007) 7 Discovery of the Electron Cathode-ray Tube (J. J. Thomson- 1897) - used experimental apparatus to conclude that cathode ray consists of beam of negatively charged particles (or electrons) charge-to-mass ratio calculation (e/m) - ratio of e- electric charge to its mass modern (excepted value): e/m = 1.758820 x 108 C/g e = magnitude of charge of e- in coulombs (C) m = mass of e- in grams Karen Hattenhauer (Fall 2007) 8 A Cathode-ray Tube Karen Hattenhauer (Fall 2007) 9 3 Measuring the Mass of an Electron Oil-drop Experiment (Robert A. Millikan 1909) - experiment used to obtain the charge on an electron (1.602 x 10-19 coulombs) - using charge-to-mass ratio (by Thomson) e = 1.758820 x 108 C/g m then m= e = 1.602176 x 10-19 C 8 1.758820 x 10 g/C 1.758820 x 108 C/g = 9.109382 x 10-28 g Karen Hattenhauer (Fall 2007) 10 Millikan s Oil-drop Experiment Karen Hattenhauer (Fall 2007) 11 Nuclear Model of Atom Ernest Rutherford (British Physicist - 1911) - proposed that metal atom he was studying must be almost entirely empty space with mass concentrated in tiny central core - showed that atoms consisted of a positively charged nucleus at the center of the atom, around which negatively charged electrons move - nucleus occupies only very small portion of space of atom nuclei diameters 10-3 picometers atomic diameters 100 picometers Karen Hattenhauer (Fall 2007) 12 4 The Rutherford Scattering Experiment Karen Hattenhauer (Fall 2007) 13 Nuclear Structure: Isotopes Structure of Nucleus: 1.) proton -a nuclear particle having a positive charge equal to that of the electron and has a mass more than 1800 times that of the electron 2.) neutron - a nuclear particle having a mass almost identical to that of the proton but no electric charge Note: characterize nucleus by atomic number (Z) and mass number (A) Karen Hattenhauer (Fall 2007) 14 Atomic Composition atomic number (Z) - number of protons in nucleus of an atom - charge of nucleus of particular atom is equal to number of protons element substance whose atoms all have the same atomic number atomic number (Z) = number of protons mass number (A) - total number of protons and neutrons in a nucleus A = number of protons + number of neutrons Karen Hattenhauer (Fall 2007) 15 5 Atomic Composition: Nuclear Symbol nuclide atom characterized by a definite atomic number and mass number atomic no. - subscript at lower left of the element symbol mass no. - superscript at upper left of the element symbol A X Z where: X = element symbol A = mass number Z = atomic number isotopes atoms whose nuclei have the same atomic number but different mass numbers (ie. nuclei have the same number of protons but different numbers of neutrons) Karen Hattenhauer (Fall 2007) 16 6 This document was created with Win2PDF available at http://www.daneprairie.com. 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