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(B) The given expression is $\ln k_t = \ln k_0 + \left( \frac{\ln (2.5)}{10} ight) 	imes t$. Taking the exponential of both sides,we get $k_t = k_0

Vedclass · Accepted Answer

$2.5$

Vedclass · Answer

(B) The given expression is $\ln k_t = \ln k_0 + \left( \frac{\ln (2.5)}{10} ight) 	imes t$. Taking the exponential of both sides,we get $k_t = k_0 	imes (2.5)^{t/10}$. The temperature coefficient is defined as the ratio of rate constants at temperatures differing by $10 \, ^{\circ}C$,i.e.,$\frac{k_{t+10}}{k_t}$. Substituting the values: $\frac{k_{t+10}}{k_t} = \frac{k_0 	imes (2.5)^{(t+10)/10}}{k_0 	imes (2.5)^{t/10}} = (2.5)^{(t+10-t)/10} = (2.5)^{10/10} = 2.5$. Thus,the temperature coefficient is $2.5$.

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