For the reaction at 298K, `A_((g))+B_((g))rarrC_((g))`
`DeltaE=-5 cal and DeltaS =-10cal K^(-1)`

For the reaction at 298 K : A_((g))+B_((g))hArrD_((g))+C_((g)) DeltaH^(@)=29.8 kcal and DeltaS^(@)=100calK^(-1) . Calculate the value of equilibrium constant.

For the reaction at 298 k, A(g) +B(g) hArr C(g) +D(g) DeltaH_0=-29.8 kcal, DeltaS^@=-0.100 kcal K^(-1) Find the value of equilibrium constant at the same temp.

For the reaction at 25^(@)C, C_(2)O_(4)(l) rarr 2XO_(2)(g) Delta H =2.1 kcal and DeltaS=20 cal K^(-1) . The reaction would be :

For the reaction at 298 K A(g) + B(g) hArr C(g) + D(g) If DeltaH^(@) =-29.8 Kcal and DeltaS^(@) Kcal K^(-1) then calculate reaction constant (k)

For the reaction: X_(2)O_(4)(l)rarr2XO_(2)(g) DeltaU=2.1 cal , DeltaS =20 "cal" K^(-1) "at" 300 K Hence DeltaG is

For the f reaction at 300K A(g)+B(g) to C(g) DeltaU = - 3.0 k cal" "," "DeltaS = - 10.0 cal //K Value of the DeltaG is

For the reaction, X_(2)O_(4)(I) rightarrow 2XO_(2)(g) Delta cup = 2.1 k cal, Delta S = 20 cal K^(-1) at 300 K hence, DeltaG is

For the reaction at 298 K A(g) + B(g) iff C(g)+ D(g) DeltaH^(@) = -29.8 Kcal, DeltaS^(@) = - 0.1 Kcal //K Calculate DeltaG^(@) and K.