At a given temperature the Kc for the reaction,
PCl5 (g) PCl3 (g) + Cl2 (g) is 2.4 x10-3. At the same temperature, the Kc for the reaction
PCl3 (g) + Cl2 (g) PCl5 (g) is :
1. 2.4x10-3
2. -2.4 x10-3
3. 4.2 x102
4. 4.8 x10-2
HI was heated in a sealed tube at 440C till the equilibrium was reached. At this point, HI was found to be 22 % decomposed. The equilibrium constant for this dissociation is :
1. | 0.28 | 2. | 0.08 |
3. | 0.02 | 4. | 1.99 |
28 g N2 and 6g H2 were mixed. At equilibrium 17 g NH3 was formed. the mass of N2 and H2 of equilibrium are respectively:
1. 11 g, zero
2. 1 g, 3 g
3. 14 g, 3 g
4. 11 g, 3 g
The strongest acid among the following is:
1. H2SO4
2. HClO3
3. HClO4
4. H2SO3
pH for the solution of salt undergoing anionic hydrolysis (say CH3COONa) is given by:
1. pH = [pKw + pKa + log c]
2. pH = [pKw + pKa - log c]
3. pH = [pKw + pKb - log c]
4. none of the above
Which can act as an acidic buffer?
a. | NH4Cl + NH4OH |
b. | CH3COOH + CH3COONa |
c. | 40 mL of 0.1 M NaCN + 20 mL of 0.1 M HCl |
1. Both a and b
2. Both b, and c
3. All are buffer solution
4. Both a, and c
The following equilibrium exists in an aqueous solution
CH3COOH H+ + CH3COO- . If dilute HCl is added to this solution:
1. the equilibrium constant will increase
2. the equilibrium constant will decrease
3. acetate ion concentration will increase
4. acetate ion concentration will decrease
The solubility product of CuS, CdS and HgS are 10-31, 10-44, 10-54 respectively. The solubility of these sulphides are in the order
1. CdS>HgS> CuS
2. HgS> CdS>CuS
3. CdS>CuS>HgS
4. CuS>CdS>HgS
The hydroxide having the lowest value of Ksp at 25C is:
1. Mg(OH)2
2. Ca(OH)2
3. Ba(OH)2
4. Be(OH)2
For the reaction, A + B C+D, the initial concentration of A and B are equal, but the equilibrium concentration of C is twice that of the equilibrium concentration of A. The equilibrium constant is:
1. 4
2. 9
3. 1/4
4. 1/9