For first order parallel reactions `k_(1)` and `k_(2)` are 4and `2min^(-1)` respectively at 300 K. If the activation energies for the formation of B and C are respectively 30,000 and 38,314 joule/ mol respectively, the temperature at which B and C will be obtained in equimolar ratio is :

K_(p) for a reaction at 25^(@)C is 10 atm. The activation energy for forward and reverse reactions are 12 and 20 kJ mol^(-1) respectively. The K_(c) for the reaction at 40^(@)C will be:

A first order reaction is 50% completed in 30 minutes at 300 K and in 10 minutes at 320 K, Calculate the activation energy of the reaction (R = 8.314 "JK mol"^(-1) .)

If for the reaction [2A(I) rarr 4B(g)] delta U and deltaS respectively are 1.2 kcal and 10 cal K^-1 at 300 K then delta G for the reaction is

For the reaction, N_(2)+3H_(2)hArr2NH_(3) , the units of K_(c) "and" K_(p) respectively are:

The bond energies of C=C and C-C at 298 K are 590 and 331 kJ mol^(-1) , respectively. The enthalpy of polymerisation per mole of ethaylene is

A first order reaction is 50% completed in 40 minutes at 300 K and in 20 minutes at 320 K. Calculate the activation energy of the reaction . (Given : log 2 = 0.3010 , log 4 = 0.6021 , R = 8.314 J K^(-1) mol^(-1) ) .

The rate constant k_(1) and k_(2) for two different reactions are 10^(16) e^(-2000//T) and 10^(15) e^(-1000//T) , respectively. The temperature at which k_(1) = k_(2) is

The rate of decomposition for methyl nitrite and ethyl nitrite can be given in terms of rate constant k_(1) and k_(2) respectively. The energy of activation for the two reactions are 152.30 kJ mol^(-1) and 157.7 kJ mol^(-1) as well as frequency factors are 10^(13) and 10^(14) respectively for the decomposition of methyl and ethyl nitrite. Calculate the temperature at which rate constant will be same for the two reactions.

Standard entropy of A, B and C are 30, 60 and 100 JK^-1 mol^-1 respectively. For the reaction (2A + 5Brarr 6C) , If the AH of the reaction is 300 kJ then the temperature at which the reaction will become spontaneous is

The standard Gibbs energies (Delta_(f)G^(Theta)) for the formation of SO_(2)(g) and SO_(3)(g) are -300.0 and -371.0 kJ mol^(-1) at 300K , respectively. Calculate DeltaG and equilibrium constant for the following reaction at 300K :