If one third of HI dcomposes at a particular temperature ,`K_C` for the reaction`2HI hArr H_2 + I_2 ` is

DeltaH for the reaction 2H_(g) rarr H_2(g) will be

Consider the reaction 2A + 2B rarr 2C . Suppose that at a particular moment during the reaction, rate of disappearance of A is 0.076 M//s What is the rate of the reaction?

A mixture of 1.57 mol of n_2 ,1.92 mol of H_2 and 8.13 mol of NH_3 is introduced into a 20 L reaction vessel at 500 kAt this temperature,the equilibrium constant. K_C for the reaction N_2(g) + 3H_2(g) hArr 2NH_3(g) is 1.7 xx 10 ^2 .Is the reaction mixture at equilibrium?If not,what is the direction of the net reaction?

A sample of HI(g) is placed in flask at a pressure of 0.2f atm.At equilibrium the partial pressure of HI(g) is 0.04 atm.What is K_p for the given equilibrium? 2HI (g) hArr H_2 (g) + I_2(g)

Write the expression for the equilibrium constant, K_C for each of the following reactions: 2NOCI(g) hArr 2NO (g) + CI_2(g)

For a gaseous equilibibrium 2A_(g) hArr 2B_(g) + 3C_(g).K_p has a value of 3.6 atm^3 at 227^@C .What is the value of K_c fo the reaction 2B _(g) + 3C_(g) hArr 2A_(g) at 227^@C

The difference between heat of reaction at constant pressure and constant volume for the reaction, C_((s)) + 1/2 O_(2(g)) to CO_(2(g)) is ________. (Assume that R=0.002 kcal and temperature = T K)

The difference between heats of reaction at constant pressure and constant volume for the reaction 2C_6H_(6(i)) + 15O_(2(g)) rarr 12CO_(2(g)) + 6H_2O((I)) at 25^@C in kJ is

The equilibrium constant for the reaction H_2 (g) +I_2 (g) hArr 2 HI (g) is 32 at a given temperature.The equilibrium concentrations of I_2 and HI are 0.5 xx 10 ^(-3) and 8xx 10^(-3)M respectively.The equilibrium concentration of H_2 is.

At 700 K , equilibrium constant for the reaction, H_2(g) + I_2(g) hArr 2HI(g) is 54.8 if 0.5 mol L^(-1) of HI(g) is present at equilibrium at 700K,what are the concentration of H_2(g) and I_2(g) assuming that we initially started with HI(g) and allowed it to reach equilibrium at 700K?