When enthalpy and entropy change for a chemical reaction are `-2.5 xx10^(3)` cals and `7.4` cals `K^(-1)` respectively. Predict that reaction at 298 K is

When K_(c)gt1 for a chemical reaction,

Enthalpy and entropy changes of reaction are 40.63 kJ mol^(-1) and 108.8 J K^(-1) mol^(-1) , respectively. Predict the feasibility of the reaction at 27^(@)C .

The enthalpy and entropy change for the reaction, Br_2 (I) + CI_2 (g) rightarrow 2BrCl(g) are 7.1 kcal mol^-1 and 25 cal K^-1 mol^-1 respectively. This reaction will be spontaneous at

For a reaction at 25^(@)C enthalpy change (DeltaH) and entropy change (DeltaS) are -11.7 K J mol^(-1) and -105J mol^(-1) K^(-1) , respectively. Find out whether this reaction is spontaneous or not?

For a reaction at 25^(@)C enthalpy change (DeltaH) and entropy change (DeltsS) are -11.7 K J mol^(-1) and -105J mol^(-1) K^(-1) , respectively. Find out whther this reaction is spontaneous or not?

Standard enthalpy and standard entropy change for the oxidation of NH_(3) at 298K are -382.64KJ mol^(-1) and 145.6Jmol^(-1) respectively. Standard free energy change for the same reaction at 298K is

Standard enthalpy and standard entropy changes for the oxidation of ammonia at 298 K are -582.64 kJ mol^(-1) and -150.6 J mol^(-1) k^-1 , respectively. Standard Gibb's energy change for the same reaction at 298 K is

The equilibrium constants for the reaction Br_(2)hArr 2Br at 500 K and 700 K are 1xx10^(-10) and 1xx10^(-5) respectively. The reaction is:

The equilibrium constants for the reaction Br_(2)hArr 2Br at 500 K and 700 K are 1xx10^(-10) and 1xx10^(-5) respectively. The reaction is:

The specific heat capacities of hydrogen at constant volume and at constant pressure are 2.4 cal g^(-1)K ^(-1) and 3.4 cal g^(-1) K^(-1) respectively. The molecular weight of hydrogen is 2g mol^(-1) and the gas constant R= 8.3 xx 10^(7)erg K^(-1) mol^(-1) . Calculate the value of J .