The rate constant at `27^(@) C and 67^(@) C` for the dissociation of `N_(2) O_(5) ` are `3.45xx10^(-5) ` and `6.90 xx10^(-3) ` respectively . What is the activation energy for the dissociation of `N_(2) O_(5)`?

The longitudinal strain and lateral strain of a given wire ar 5xx10^(-5) and 25xx10^(-6) respectively. The Poisson's ratio is

For a first order reaction, the frequency factor and rate constant at 600K are 1.6xx10^(13) s^(-1) and 2.05xx10^(-8)s^(-1) respectively. Find the energy of activation.

The rate constant, the activation energy, and the Arrhenius parameter of a chemical reaction at 25^(@)C are 3.0xx10^(-4)s^(-1), 104.4 KJ mol^(-1) , and 6.0xx10^(14)s^(-1) , respectively. The value of the rate constant as Trarroo is

The correct increasing order of bond dissociation energy for N_2, O_2, F_2 and Cl_2 is

reaction has rate constant 1.73 xx10^(-3) min^(-1) and 4.86xx10^(-3) min^(-1) at 300 K and 330 K respectively. Calculate the energy of activation of this reaction. [Given: R = 8.314 JK^(-1) mol^(-1)

The reaction N_(2)O_(5) (in C Cl_(4) solution) rarr 2NO_(2) (solution) +(1)/(2) O_(2)(g) is of first order in N_(2)O_(5) with rate constant 6.2 xx 10^(-1) s^(-1) . What is the value of rate of reaction when [N_(2)O_(5)] = 1.25 mol L^(-1) ?