(A) 369 K is considered as transition temperature of sulphur
(R ) At 369 K both `alpha and beta ` sulphur are exist in equilibrium

alpha, beta and gamma forms of sulphur differ in

for the reaction 2A_((g)) hArr B_((g)) + 3C_((g)) , at a given temperature, K_(c) = 16. What must be the volume of the falsk, If a mixture of 2 mole cach A, B and C exist in equilibrium ?

For A+BhArrC , the equilibrium concentrations of A and B at a temperature are 15 "mol" L^(-1) . When volume is doubled the reaction has equilibrium concentration of A is 10 "mol" L^(-1) . Calculate a. K_(c) b concentration of C in original equilibrium.

Two solid steel cylinders A and B of same temperature (higher than the surrounding temperature) are of same length and of radii r and 2r, respectively. Only radiation considered, if the rate of all of temperature of A is k, then the rate of fall of temperature B would bne

Sulphide ion in alkaline solution reacts with solid sulphur to form polysulphide ions having formulae S_2^(2-) , S_3^(2-) , S_4^(2-) and so on. The equilibrium constant for the formation of S_2^(2-) is 12(K_1) and for the formation of S_3^(2-) is 132(K_2) both from S and S^(2-) . What is the equilibrium constant for the formation of S_3^(2-) from S_2^(2-) and S ?

In an equilibrium A+BhArrC+D,A and B are mixed in a vessel at temperature T. The initial concentration of A was twice the initial concentration of B. After the attainment of equilibrium, concentration of C was thrice concentration of B, calculate K_(c) .

1 mole CaCO_(3(s)) is heated in 11.2 lit vessel so that equilibrium is established at 819 K. If K_p for CaCO_3 harr CaO + CO_2 at this temperature is 2 atm, equilibrium concentration of CO_2 (in mol- lit^(-1) )