4: Chemical Reactions

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4.1: Chemical Equations
Chemical reactions occur when one or more chemicals combine to form one or more new chemicals. The law of conservation of matter is obeyed when writing chemical equations to describe chemical reactions.
4.2: Balancing Chemical Equations
Chemical reactions are represented by chemical equations that list reactants and products. Proper chemical equations are balanced; the same number of each element’s atoms appears on each side of the equation.
4.3: The Mole
4.4: Reactions in Solution
4.5: Precipitation Reactions and Solubility Guidelines
A double-replacement reaction exchanges the cations (or the anions) of two ionic compounds. A precipitation reaction is a double-replacement reaction in which one product is a solid precipitate. Solubility rules are used to predict whether a precipitate will form or not.
4.6: Acids, Bases, and Neutralization Reactions
The Arrhenius definition of an acid is a substance that increases the amount of H+ in an aqueous solution. The Arrhenius definition of a base is a substance that increases the amount of OH- in an aqueous solution. Neutralization is the reaction of an acid and a base, which forms water and a salt. Net ionic equations for neutralization reactions may include solid acids, solid bases, solid salts, and water.
4.7: 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.
4.8: Recognizing Redox Reactions
Oxidation numbers, indicating if an atom is neural, electron-rich, or electron-poor, are assigned to atoms in a redox equation. Keeping track of oxidation numbers on the reactant and product sides of a chemical equation provide information to determine what species is oxidized and what species is reduced.

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