a) The rate equation for this reaction, assuming the first step is rate-determining : k = k(CH₃O⁻) (CH₃COCl)
b) If the concentration of OCH3 were increased 10 times, what would happen to the rate of the reaction : k = k × 10(CH₃O⁻) (CH₃COCl)
The conversion of acetyl chloride to methyl acetate occurs via the following two-step mechanism:
a) The rate equation for this reaction, assuming the first step is rate-determining :
k = k(CH₃O⁻) (CH₃COCl)
b) If the concentration of OCH3 were increased 10 times, what would happen to the rate of the reaction :
k = k × 10(CH₃O⁻) (CH₃COCl).
c) If the concentrations of both CH3COCI and OCH3 were increased 10 times, the rate of the reaction :
k = k × 10(CH₃O⁻) × 10(CH₃COCl).
d)the conversion of acetyl chloride to methyl acetate as substitution reaction.
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