he integrated rate law is an equation that describes e concentration of a reactant over time (t). The tegrated rate law comes in different forms epending on the reaction order. The rate laws below e given for a simple general reaction →products In a study of the decomposition of the compound X via the reaction X(g) = Y(g) + Z(g) the following concentration-time data were collected: Linear Time (min)| [X] (M)| Drder Integrated rate law Slope graph 0.467 [A] = -kt + [A]o [A] vs. t ーk 1 0.267 1 In[A] = -kt +In[A]o ln[A] vs. t -k 2 0.187 1 = kt + 1 TAT Vs. t 1 3 0.144 2 k [A] [A]. [A] 4 0.117 0.099 6 0.085 0.075 What is the order of the reaction? · View Available Hint(s) zeroth The reaction is O first order. O second

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The integrated rate law is an equation that describes the concentration of a reactant over time (t). The integrated rate law comes in different forms depending on the reaction order. The rate laws below are given for a simple general reaction A→products In a study of the decomposition of the compound X via the reaction X(g) = Y(g)+ Z(g) the following concentration-time data were collected: Linear Time (min) [X] (M) Order Integrated rate law Slope graph 0.467 [A] = - kt + [A]o [A] vs. t -k 0.267 1 |In[A] = - kt+In[A]o In[A] vs. t -k 1 0.187 1 1 = kt+ [A] 3 0.144 vs. t [A] 2 k [A], 4 0.117 0.099 0.085 7 0.075 What is the order of the reaction? • View Available Hint(s) zeroth The reaction is first order. second CO