Students may do this by plotting the data three different ways. For each plot, time goes on the x-axis. A zero-order reaction is linear when [NOBr] on the y-axis. A first-order reaction is linear when In[NOBr] is on the y-axis. A second-order reaction is linear when 1/[NOBr] is on the y-axis. t 0 5 10 15 50 85 [NOBr] 0.0653 0.0514 0.0424 0.0361 0.0177 0.0117 S M hat is the rate law for the reaction? (Rate equations take the general form 'rate = k. [A] [B]'.) hat is the value of the rate constant at the temperature of the experiment? 826 x chemPad XX rate = K[NOBr]2 rate = K[NOBr]^2 Correct. Help Greek

Just the incorrect part in the middle. 

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Nitrosyl bromide decomposes by the reaction 2 NOBr(g) → 2 NO(g) + Br₂(g). Show that the following data are consistent with a second-order reaction and determine the second-order rate constant for the reaction. Students may do this by plotting the data three different ways. For each plot, time goes on the x-axis. A zero-order reaction is linear when [NOBr] on the y-axis. A first-order reaction is linear when In[NOBr] is on the y-axis. A second-order reaction is linear when 1/[NOBr] is on the y-axis. t [NOBr] 0 0.0653 5 10 0.0514 0.0424 What are the units for the rate law? OM-2.5-1 OM-3.5-1 M-2.5-2 M-1. s-1 15 0.0361 50 0.0177 85 0.0117 S M What is the rate law for the reaction? (Rate equations take the general form 'rate = k. [A] . [B]'.) What is the value of the rate constant at the temperature of the experiment? 4.0 826 X chemPad XX rate = k[NOBr]² rate = k[NOBr]^2 Correct. → Help Greek