`Delta G = Delta H - T Delta S` was given by

If the rate of reaction : N_2 + 3H_2 rarr 2NH_3 measured as Delta [NH_3]// Delta t was found to be 3.6xx 10^-4 mol L^-1 s^-1 , then rate of reaction expressed as Delta [H_2] //Delta t is ............ .

Prove that Delta H = Delta U + Delta ngRT.

For the reaction 2H(g)rarr H_(2)(g) , the sign of DeltaH and DeltaS respectively are :

A reaction, 3X rarr 2Y+Z proceeds in a closed vessel. The rate of disappearance of X, -Delta [X]// Delta t is found to be 0.072 mol L^(-1) s^(-1) . Calculate : (Delta [Y])/(Delta t) and (Delta [Z])/ (Delta t)

The area S of a triangle is calculated by measuring b,c and A. If the be an error DeltaA in the measurement of A, show that the relative error in area is given by (DeltaS)/s = cot A. DeltaA

For the reaction, N_2+3H_2 rarr 2NH_3 the rate of reaction measured as (Delta [NH_3])/(Delta t) was found to be 2.4 xx 10^-4 mol L^(-1) s^(-1) . Calculate the rate of reaction expressed in terms of (i) N_2 and (ii) H_2 .

An equilateral triangle PQR is circumscribed about a given DeltaABC. Prove that the maximum area of Delta PQR is 2 Delta + (a^(2) +b^(2)+c^(2))/(2sqrt3)). Where a,b,c are the sides of Delta ABC an Delta is its area.

AL, BM and CN are perpendicular from angular points of a triangle ABC on the opposite sides BC, CA and AB respectively. Delta is the area of triangle ABC, (r ) and R are the inradius and circumradius. If area of Delta LMN is Delta ', then the value of (Delta')/(Delta) is

For the reactions at 298 K, 2A + B to C, Delta H = 400 kj mol^(-1) and Delta S = 0.2 kj K^(-1) mol^(-1) . At what temperature will the reaction become spontaneous considering Delta H and Delta S to be constant over the temperature range ?