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Ce = Co + a{ [t-BuClo - [t-BuCl} und (2) C. = Co + a[t-BuCl), where C is the conductance at time t = 1,Co

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Ce = Co + a{ [t-BuClo - [t-BuCl} und (2) C. = Co + a[t-BuCl), where C is the conductance at time t = 1,Co is the conductance at time t = 0, C. is the conduc infinite time, a is a constant, [t-BuCl), is the concentration of t-BuCl at time t = 0 and [t-BuCI concentration of t-BuCl at time t = t. Combining Equations 1 and 2 and the fact that this is a fir reaction, Equation 3 is obtained. C.-C= a[t-BuCI), = a[t-BuClJo exp (kt) (3) Question 2. Prove that equation (3) can be obtained by subtracting equation (2) from (1) (see manual for equations). Remember for a first order reaction: [A] = (Alexp exp (-k)

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