For the reaction `H_2(g)+Br_2(g) leftrightarrow 2HBr(g)` at 1024K, `K_p` is `1.6 times 10^5`. IF 10 bar of hydrogen bromide is introduced into the vessel at 1024K to establish equilibrium, what is the equilibrium pressure of hydrogen bromide?

For the reaction CO_((g))+CI_(2(g)) harr COCI_(2(g)) . The K_p // K_c is equal to

At 125^@C the K_p for the reaction N_2(g)+3H_2(g) leftrightarrow 2NH_3(g) is 2.15 times 10^-6 atm^-2 . Calculate K_c for the equilibrium at same temperature.

PCl_(5) (g) leftrightarrow PCl_3(g) +Cl_2(g) At 300K, K_C is 0.204 mol L^-1 . What is the value of K_p ?

K_p for the reaction N_2O_4(g) leftrightarrow 2NO_2(g) at 750K is 640torr. Calculate the percentage of dissociation of N_2O_4 at equilibrium pressure of 160torr.

K_p for the reaction NH_4HS (s) leftrightarrow NH_3(g) +H_2S (g) at certain temperature is 9 bar^2 Calculate the equilibrium pressure.

The equilibrium constant for the reaction N_(2(g)) +O_(2(g)) hArr 2NO_((g)) is 4 xx 10^(-4) at 200K. In presence of a catalyste, equilibrium is attaincd ten times faster. Therefore, the equilibrium constant in the presence of the catalyst at 200K is

K_p for the reaction 2SO_3(g) +O_2(g) leftrightarrow 2SO_3(g) is 2.5 times 10^20 atm^-1 at 500K. Calculate the K_p for the reaction SO_3(g) leftrightarrow SO_2(g)+1/2 O_2(g) .

For the reaction H_(2)(g)+Br_(2)(g)to2HBr(g) , the reaction rate =K[H_(2)][Br_(2)]^(1//2) , which statement is true about this reaction?