Two reactions R(2) and R(2) have identic...

Two reactions `R_(2) and R_(2)` have identical pre - exponential factors. Activations enery of `R_(1)` exceeds that of `R_(2)` by 10 kJ `mol_(-1)` . If `k_(1) and k_(2)` are rate constants for rate constants for reactions `R_(1) and R_(2)`
respectively at 300k , then In `(k_(2)/k_(1))`is equal to `(R=8.314 J mol^(-1)K^(-1))`

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Two reactions , R_(1) and R_(2) have identical pre-exponential factors . Activation energy of R_(1) exceeds that of R_(2) by 10"kJ.mol"^(-1) . If k_(1) and k_(2) are rate constants for reaction R_(1) and R_(2) respectively at 300K, then In (K_(2)//k_(1)) is equal to (R=8.314"J.mol"^(-1).k^(-1)) -

Two reactions of the same order have equal pre exponential factors but their activation energies differ by 24.9kJ "mol"^(-1) . Calculate the ratio between the rate constants of these reactions at 27^(@)C . (Gas constant R = 8.314 J K^(-1) "mol"^(-1) )

The ratio of rate constants of a reaction at 300K and 291K is 2. Calculate the energy of activation. ("Given "R = "8.314JK"^(-1)" mol"^(-1)) .

The kinetic energy of two moles of N_(2) at 27^(@) C is (R = 8.314 J K^(-1) mol^(-1))

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