The equilibrium constant `K_(c)` for the following reaction at `842^(@)C`is `7.90xx10^(-3)` .What is `K_(p)`at same temperature ?
`(1)/(2)f_(2)(g)hArrF(g)`

The equilibrium constant K_(c) for the following reaction at 842^(@) C is 7.90xx10^(-3) . What is K_(p) at same temperature ? (1)/(2)F_(2(g)) hArr F_(g)

The equilibrium constant K_(c) for the following reaction at 742^(@) C is 6.90xx10^(-3) . What is K_(p) at same temperature ? (1)/(2)F_(2(g)) hArr F_(g)

The equilibrium constant K_(p) for the following rection at 191^(@)C is 1.24. what is K_(c) ? B(s)+(3)/(2)F_(2)(g)hArr(g)

The equilibrium constant K_(p) for the following rection at 191^(@)C is 1.24. what is K_(c) ? B(s)+(3)/(2)F_(2)(g)hArr(g)

The equilibrium constant K_(p) for the following rection at 191^(@)C is 1.24. what is K_(c) ? B(s)+(3)/(2)F_(2)(g)hArrBF_3(g)

The equilibrium constant K_(p) for a reaction at "300K" was found to be 10^(4) What will be Delta G^(@) for reaction at same temperature

At 1000 K, the equilibrium constant, K_(c) for the reaction 2NOCl(g) hArr 2NO(g) +Cl_(2)(g) is 4.0xx10^(-6) mol L^(-1) . The K_(p) (in bar) at the same temperature is (R=0.083" L bar K"^(-1) mol^(-4))

Calculate K_p from K_c : The equilibrium constant, K_c , for the reaction N_2O_4(g) hArr 2NO_2(g) is 3.64xx10^-3 at 25^@C . What is the value of K_p at this temperature?

At 1000K, equilibrium constant K_c for the reaction 2SO_3(g) harr 2SO_2(g)+O_2(g) is 0.027. What is the value of K_p at this temperature?