Consider the following reaction: (a) The rate law for this reaction is first order in HgCl₂(aq) and second order in C₂042 (aq). What is the rate law for this reaction? O Rate = k [HgCl₂(aq)] [C₂04²-(aq)] O Rate = k [HgCl₂(aq)]² [C₂04² (aq)] Rate = k [HgCl₂ (aq)] [C₂04² (aq)]² O Rate = k [HgCl₂(aq)]² [C₂04² (aq)]² O Rate = k [HgCl₂(aq)] [C₂04² (aq)]³ O Rate = k [HgCl₂(aq)]4 [C₂04²-(aq)] (b) If the rate constant for this reaction at a certain temperature is 0.00875, what is the reaction rate when [HgCl₂(aq)] = 0.162 M and [C₂042 (aq)] = 0.267 M? Rate = 2 HgCl₂(aq) + C₂042 (aq) → 2 Cl(aq) + 2 CO₂(g) + Hg₂Cl₂ (s) X M/s. Rate = (c) What is the reaction rate when the concentration of HgCl₂(aq) is doubled, to 0.324 M while the concentration of C₂042(aq) is 0.267 M? X M/s

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Consider the following reaction: (a) The rate law for this reaction is first order in HgCl₂(aq) and second order in C₂042 (aq). What is the rate law for this reaction? O Rate = k [HgCl₂(aq)] [C₂04²-(aq)] O Rate = k [HgCl₂(aq)]² [C₂04²-(aq)] Rate = k [HgCl₂(aq)] [C₂04²-(aq)]² O Rate = k [HgCl₂(aq)]² [C₂04²-(aq)]² O Rate = k [HgCl₂(aq)] [C₂04²-(aq)]³ O Rate = k [HgCl₂(aq)]4 [C₂04²-(aq)] (b) If the rate constant for this reaction at a certain temperature is 0.00875, what is the reaction rate when [HgCl₂ (aq)] = 0.162 M and [C₂042 (aq)] = 0.267 M? Rate = 2 HgCl₂(aq) + C₂042 (aq) → 2 CI (aq) + 2 CO₂(g) + Hg₂Cl2 (s) XM/s. Rate = (c) What is the reaction rate when the concentration of HgCl₂ (aq) is doubled, to 0.324 M while the concentration of C₂042 (aq) is 0.267 M? X M/S