12.2 Factors Affecting Reaction Rates

12.2 Factors Affecting Reaction Rates

  • The rates at which reactants are consumed vary greatly.
    • The chemical nature of the reactants, the temperature of the reactants, the concentration of the reactants, and the presence of a catalyst are some of the factors that affect the rates of chemical reactions.
  • The nature of the substances affects the rate of reaction.
    • Depending on the identity of the reactants, reactions that appear similar may have different rates.
    • When small pieces of the metals iron and sodium are exposed to air, the sodium reacts completely with air overnight, whereas the iron is barely affected.
    • The metals react with water to form hydrogen gas and a base.
    • The calcium reaction is moderate while the sodium reaction is very fast.
  • Reactions occur at the boundary, or interface, between two phases, except for substances in the gaseous state or solution.
    • The rate of a reaction between two phases depends on the surface contact between them.
    • A finely divided solid has more surface area available for reaction than a large piece of the same substance.
    • A finely divided solid will react more quickly than a large piece of the same solid.
  • Large pieces of iron react slowly with acids, while finely divided iron reacts much more quickly.
  • Large pieces of wood smolder, smaller pieces burn rapidly, and saw dust burns.

  • The video shows the reaction of cesium with water in slow motion and a discussion of how the state of reactants and particle size affect reaction rates.
  • Chemical reactions happen at higher temperatures.
    • Food can be left on the counter.
    • The lower the temperature in the refrigerator, the more time it takes for the same food to remain fresh.
    • We use a burner or a hot plate in the laboratory to increase the speed of reactions.
    • An increase in temperature of 10 degC will double the rate of a reaction in a heterogeneous system.
  • Concentrations of the reactants affect the rates of many reactions.
    • When the concentration of the reactants increases, rates increase.
    • As a result of its reaction with sulfur dioxide, calcium carbonate degrades.
  • In a polluted atmosphere where the concentration of sulfur dioxide is high, calcium carbonate degrades more quickly than in less polluted air.
    • In an atmosphere of pure oxygen, phosphorus burns more quickly than in air, which is only 20% oxygen.
  • Statues made from carbonate compounds such as limestone and marble tend to weather slowly due to the actions of water and thermal expansion.
    • Sulfur dioxide can accelerate weathering.
    • The limestone degrades more quickly as the concentration of air pollutants increases.
  • If the concentration of oxygen in the air is higher, phosphorous will burn more quickly.
    • To see an example, watch this.
  • When hydrogen peroxide solutions are poured onto an open wound, substances in the exposed tissues act as catalysts, increasing the rate of hydrogen peroxide's decomposition.
    • In the case of the bottle in the medicine cabinet, complete decomposition can take months.
    • The minimum amount of energy required for a chemical reaction is called activation energy.
    • A catalyst increases the reaction rate by providing an alternative pathway.
    • The mechanisms of reactions will be discussed in greater detail later in the chapter.