6: Chemical Quantities and Reactions

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6.1: Avogadro's Number
6.2: Conversions Between Moles and Atoms
6.3: Chemical Formulas as Conversion Factors
Using formulas to indicate how many atoms of each element we have in a substance, we can relate the number of moles of molecules to the number of moles of atoms. In any given formula the ratio of the number of moles of molecules (or formula units) to the number of moles of atoms can be used as a conversion factor.
6.4: Molar Mass
6.5: Conversions Between Moles and Mass
6.6: Word Equations
6.7: Chemical Equations
6.8: Balancing Equations
6.9: Combination Reactions
6.10: Decomposition Reactions
6.11: Combustion Reactions
6.12: Single Replacement Reactions
6.13: Activity Series
6.14: Double Replacement Reactions
A double-replacement reaction is a reaction in which the positive and negative ions of two ionic compounds exchange places to form two new compounds.
6.15: Oxidation-Reduction (Redox) Reactions
Chemical reactions in which electrons are transferred are called oxidation-reduction, or redox, reactions. Oxidation is the loss of electrons. Reduction is the gain of electrons. Oxidation and reduction always occur together, even though they can be written as separate chemical equations.
6.16: Redox Reactions in Organic Chemistry and Biochemistry
Redox reactions are common in organic and biological chemistry, including the combustion of organic chemicals, respiration, and photosynthesis.
6.17: Quantitative Relationships Based on Chemical Equations
A balanced chemical equation not only describes some of the chemical properties of substances—by showing us what substances react with what other substances to make what products—but also shows numerical relationships between the reactants and the products. The study of these numerical relationships is called stoichiometry. A balanced chemical equation gives the ratios in which molecules of substances react and are produced in a chemical reaction.
6.18: Mass-Mole Stoichiometry
6.19: Mass-Mass Stoichiometry
6.20: Energy and Chemical Bonds
Energy is the ability to do work. Heat is the transfer of energy due to temperature differences. Energy and heat are expressed in units of joules.
6.21: Heat Changes during Chemical Reactions
Heat transfer is related to temperature change. Heat is equal to the product of the mass, the change in temperature, and a proportionality constant called the specific heat.
6.22: Exothermic and Endothermic Reactions
Atoms are held together by a certain amount of energy called bond energy. Chemical processes are labeled as exothermic or endothermic based on whether they give off or absorb energy, respectively.
6.23: Why Do Chemical Reactions Occur? Free Energy
One of the major goals of chemical thermodynamics is to establish criteria for predicting whether a particular reaction or process will occur spontaneously. We have developed one such criterion, the change in entropy of the universe. This is not particularly useful and a criterion of spontaneity that is based solely on the state functions of a system would be much more convenient and is provided by a new state function: the Gibbs free energy.
6.24: How Do Chemical Reactions Occur? Reaction Rates
6.25: Effects of Temperature, Concentration, and Catalysts on Reaction Rates
By their nature, some reactions occur very quickly, while others are very slow. However, certain changes in the reaction conditions can have an effect on the rate of a given chemical reaction. Collision theory can be utilized to explain these rate effects.

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