8: Atomic Mass, Reaction Stoichiometry

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Alaka Pradhan
South Puget Sound Community College

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8.1: Isotopes and Atomic Weights
Isotopes are atoms of the same element that contain different numbers of neutrons. For these species, the number of electrons and protons remain constant. This difference in neutron amount affects the atomic mass (A) but not the atomic number (Z). In a chemical laboratory, isotopes of an element appear and react the same.
8.2: The Mole
When objects are small or come in larger quantities, it is often inconvenient, inefficient, or even impossible to deal with the objects one at a time. For these reasons, we often deal with small objects or large quantities in groups, and have even invented names for various numbers of objects.
8.3: Molecular Mass and Formula Mass
Why is knowledge of composition important? Everything in nature is either chemically or physically combined with other substances. To find the amount of a material in a sample, you need to know what fraction of the sample it is.
8.4: Counting Objects By Weighing
The sizes of atoms and molecules are so small that it is physically difficult, if not impossible, to directly count them out. However, atoms and molecules may be counted indirectly by using a common trick of "counting by weighing."
8.5: Molar Mass
One mole of any compound will have a mass that is numerically equal to its molecular mass or formula mass and expressed in units of grams. This mass is also called the molar mass.
8.6: Grams-->Moles-->Moles-->Grams
As we just discussed, molar mass is defined as the mass (in grams) of 1 mole of substance (or Avogadro's number of molecules or formula units). The simplest type of manipulation using molar mass as a conversion factor is a mole-gram conversion (or its reverse, a gram-mole conversion).

Thumbnail: Visual of how the law of conservation of mass means that there must be same number of atoms of each element for the reactants and the products. (CC BY-SA 4.0; Enoshd via Wikimedia)

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