log x=14.34-(1.25times10^(4))/(T)

The rate constant for the first order decomposition of a certain reaction is described by the equation log k (s^(-1)) = 14.34 - (1.25 xx 10^(4)K)/(T) (a) What is the energy of activation for the reaction? (b) At what temperature will its half-life period be 256 min ?

The rate constant for the first order decompoistion of a certain reaction is described by the equation log k (s^(-1)) = 14.34 - (1.25 xx 10^(4)K)/(T) (a) What is the energy of activation for the reaction? (b) At what temperature will its half-life periof be 256 min ?

The rate constant for the first order decomposition of (H)_(2) (O)_(2) is given by the following equation: log k=14.34-1.25 xx 10^4(K) / (T) Calculate E_{a} for this reaction and at what tem perature will its half-period be 256 minutes?

The rate constant for the first order decomposition of H_(2) O_(2) is given by the following equation, log k = 14.34 - (1.25 xx 10^(4) K)/( T) Calculate E_a for this reaction and at what temperature will its half period be 256 min?

For a first order reaction, rate constant is given is log k = 14 - (1.2 xx 10^(4))/(T) , then what will be value of temperature if its half life period is 6.93 xx 10^(-3) min ?

For a first order reactin, rate constant is given is log k = 14 - (1.2 xx 10^(4))/(T) , then what will be value of temperature if its half life period is 6.93 xx 10^(-3) min ?

For a first order reaction, the rate constant (k) is 1.25 X 104 represented as-logk =14.34-(1.25xx10^4)/T Calculate activation energy and Arrhenius factor. At which temperature, the half life of the reaction would be 256 min.