In the reversible reaction `2HIhArrH_(2)+I_(2),K_(p)` is

For the reversible reaction N_2(g) + 3H_2(g) iff 2NH_3(g) at 500^@C , the value of K_p is 1.44 xx 10^-5 , when partial pressure is measured in atmospheres, the corresponding value of K_c with concentration in mol Litre^-1 , is

For the reversible reaction A+2BhArrC+ heat, the forward reaction will proceed at-

In a reversible chemical reaction, 2NO_2 overset(k_1) underset(k_2) iff N_2O_4 the rate of disappearance of NO_2 is equal to

For the reaction 2H_(2)(g)+O_(2)(g)hArr 2H_(2)O(g)-K_(p)=K_(c)(RT)^(x) . Find the value of x.

Calculate the value of K_c for the given reactions: N_2O_4(g)hArr 2NO_2(g),K_p=11 ( at 100^(@)C )

For the reversible reaction A =+ 2B harr C+ Heat the forward raction will proceed at

At 35^(@)C , the value of K_(p) for the equilibrium reaction N_(2)O_(4)hArr2NO_(2) is 0.3174 , Calculate the degree of dissociation when P is 0.2382 atm

{:("11. "K_(p),"a. homogeneous equilibrium"),("12. "CaCO_(3)(s)hArr CaO_((s))+CO_(2(g)),"b. active mass of reactants"),("13. Rate of reacton","c. irreversible reaction"),("14. "H_(2(g))+I_(2(g))hArr 2HI_((g)),"d. Degree of dissociation"),("15. "C_((s))+O_(2(g))rarr CO_(2(g)),"e. "K_(C )(RT)^(Deltan)),(,"f. Heterogeneous equilibrium"):}

AT 1500K, K_(c)=2.6xx10^(-9) for the reaction 2BrF_(5)(g)hArrBr_(2)(g)+5F_(2)(g) . Determine K_(p) of the reaction at that temperature.