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Definite Proportions, Multiple Proportions and Atomic Theory
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Law of Conservation of Mass
The sum of the masses for the reactants equals the sum of the masses for the products Lavoisier Mass is neither created nor destroyed in a chemical reaction If you start with 10g, you will wind up with 10g
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Law of Definite Proportions
• Proust • Atoms are neither lost nor gained in a chemical reaction • Chemical compounds have the same mass ratio of elements no matter how formed (e.g., water always has an O to H ratio of 8.01:1.00) • Evidence for this law: Berzelius’ experiments with lead and sulfur • Constant composition implies constant properties (i.e., water always boils at 100ºC and freezes at 0ºC)
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Chemical compounds have the same mass ratio of elements no matter how formed
Copper Carbonate
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Law of Definite Proportions
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Law of Multiple Proportions
• Compounds of differing mass ratios of the same elements are found, but they will have different properties • Example: carbon dioxide (CO2) and carbon monoxide (CO)
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Dalton’s Atomic Theory
• John Dalton- (1803) Law of Multiple Proportions, Atomic Theory of Matter Elements of Dalton’s atomic theory: Matter is composed of atoms Different elements have different atoms (e.g, C has a mass=12, O has a mass=16) Compounds form when different elements combine in fixed proportions
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Determining the Mass of a Compound
EXAMPLE: If C has a mass of 12 and O has a mass of 16, what is the mass of: a) Carbon monoxide (CO) = 28 b) Carbon dioxide (CO2) 12 + 2(16) = 44
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Determining the Mass of a Compound
Find the mass of NaCl, NaOH, CaCO3, and H2SO4 The atomic masses for each element are found on the periodic table. (for now use these amounts) Na=23 Cl=35 O=16 Ca=40 C=12 H=1 and S=32
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