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11 Nov 2019
For the reaction: 2NO + Cl_2 rightarrow 2NOCl Match each proposed mechanism (A-F) to its appropriate rate law (1-6), given below. If there is no match for a provided rate law, select "distractor". A. *distractor* B. *distractor* C. NO + Cl_2 rightarrow NOCl_2 slow NOCl_2 + NO rightarrow 2NOCl fast D. *distractor* E. NO N_2O_2 fast equilibrium N_2O_2 + Cl_2 rightarrow 2NOCl slow F. Cl_2 rightarrow 2 Cl slow Cl + NO rightarrow NOCl fast Rate = k[Cl_2] Rate = k[NO]^2[C1_2] Rate = k[NO][Cl_2] Rate = k[NO] Rate = k[NO]^2[Cl_2]^2 Rate = k[NO][Cl_2]^2
For the reaction: 2NO + Cl_2 rightarrow 2NOCl Match each proposed mechanism (A-F) to its appropriate rate law (1-6), given below. If there is no match for a provided rate law, select "distractor". A. *distractor* B. *distractor* C. NO + Cl_2 rightarrow NOCl_2 slow NOCl_2 + NO rightarrow 2NOCl fast D. *distractor* E. NO N_2O_2 fast equilibrium N_2O_2 + Cl_2 rightarrow 2NOCl slow F. Cl_2 rightarrow 2 Cl slow Cl + NO rightarrow NOCl fast Rate = k[Cl_2] Rate = k[NO]^2[C1_2] Rate = k[NO][Cl_2] Rate = k[NO] Rate = k[NO]^2[Cl_2]^2 Rate = k[NO][Cl_2]^2
Hubert KochLv2
22 Apr 2019