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15 Apr 2022
PCl_3 (g) + Cl_2 (g) rightarrow PCl_5 (g) In the equation above, the forward reaction is first order in both PCl_3 and Cl_2 and the reverse reaction is first order in PCl_5. Suppose that 2 moles of PCl_3 and 1 mole of Cl_2 are mixed in a closed container at constant temperature. Draw a graph that shows how the concentrations of PCl_3, Cl_2, and PCl_5 change with time until after equilibrium has been firmly established. Give the initial rate law for the forward reaction. Provide a molecular explanation for the dependence of the rate of the forward reaction on the concentrations of the reactants. Provide a molecular explanation for the dependence of the rate of the forward reaction on temperature.
PCl_3 (g) + Cl_2 (g) rightarrow PCl_5 (g) In the equation above, the forward reaction is first order in both PCl_3 and Cl_2 and the reverse reaction is first order in PCl_5. Suppose that 2 moles of PCl_3 and 1 mole of Cl_2 are mixed in a closed container at constant temperature. Draw a graph that shows how the concentrations of PCl_3, Cl_2, and PCl_5 change with time until after equilibrium has been firmly established. Give the initial rate law for the forward reaction. Provide a molecular explanation for the dependence of the rate of the forward reaction on the concentrations of the reactants. Provide a molecular explanation for the dependence of the rate of the forward reaction on temperature.
16 Apr 2022
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