The molar heat capacities at constant pressure (assumed constant with respect to temperature ) of A,B and C are in ratio 3:1.5:2.0. the enthyalpy change for the exothermic reaction `A+ 2B to 3c ` at 300k and 310 K is `Delta H_(300)` and `DeltaH_(310)` respectively then:

The molar heat capacities at constant pressure (assumed constant with respect to temperature) at A, B and C are in ratio of 3:1.5:2.0 The enthalpy change for the exothermic reaction A + 2B rarr 3C at 300 K and 310 K is DeltaH_(300) "and" DeltaH_(310) respectively then:

The molar heat capacities at constant pressure (assumed constant with respect to temperature) at A, B and C are in ratio of 3:1.5:2.0 The enthalpy change for the exothermic reaction A + 2B rarr 3C at 300 K and 310 K is DeltaH_(300) "and" DeltaH_(310) respectively then:

The molar heat capacities at constant pressure (assumed constant with respect to temperature) of A, B and C are in ratio of 1.5 : 3.0 : 2.5 . If enthalpy change for the exothermic reaction A+2B rarr 3C at 300 K and 310 K is DeltaH_(1) and DeltaH_(2) respectively then

The molar heat capacities at constant pressure (assume constant with respect to temperature) of A, B and C are in ratio of 1.5 : 3.0 : 2.0 . If enthalpy change for the exotherimic reaction A + 2B rarr 3C at 300 K is -10 kJ//"mol" & C_(p.m) (B) is 300 J/mol then enthalpy change at 310 K is:

Molar heat capacities at constant pressure for A, B and C are 3, 1.5 and 2 J/K mol. The enthalpy of reaction and entropy of reaction, A +2 B rarr 3C are 20 kJ/mol and 20 J/K mol at 300 K. Calculate DeltaG (in kJ / mol) for the reaction, (1)/(2)A+Brarr(3)/(2)C

Molar heat capacities at constant pressure for A, B and C are 3, 1.5 and 2 J/K mol. The enthalpy of reaction and entropy of reaction, A + B rarr 3C are 20 kJ/mol and 20 J/K mol at 300 K. Calculate DeltaG (in kJ / mol) for the reaction, (1)/(2)A+Brarr(3)/(2)C

Molar heat capacities at constant pressure for A, B and C are 3, 1.5 and 2 J/K mol. The enthalpy of reaction and entropy of reaction, A + B rarr 3C are 20 kJ/mol and 20 J/K mol at 300 K. Calculate DeltaG (in kJ / mol) for the reaction, (1)/(2)A+Brarr(3)/(2)C

The rate constants of a reaction at 300K and 280 K respectively are K_(1) and K_(2) . Then

The rate constant of a particular reaction doubles when the temperature changes from 300K to 310 K, calculate the energy of activation.

The rate of a certain reaction increases by 2.3 times when the temperature is raised form 300K to 310 K . If k is the rate constant at 300K, then the rate constant at 310 K will be equal to