Which of the following fluoro-compounds is most likely to behave as a Lewis base?
(1) BF3
(2) PF3
(3) CF4
(4) SiF4
Among the following, the correct order of acidity is
1. HClO < HClO2 < HClO3 < HClO4
2. HClO2 < HClO < HClO3 < HCLO4
3. HClO4 < HClO2 < HClO < HClO3
4. HClO3 < HClO4 < HClO2 < HClO
MY and NY3 , two nearly insoluble salts, have the same Ksp values of 6.2 x 10-13 at room
temperature. Which statement would be true in regard to MY and NY3?
1. The molar solubility of MY in water is less than that of NY3
2. The salts MY and NY3 are more soluble in 0.5 M KY than in pure water
3. The addition of the salt of KY to solution of MY and NY3 will have no effect on their
solubilities
4. The molar solubilities of MY and NY3 in water are identical
The Ksp of Ag2CrO4, AgCl, AgBr and Agl are, respectively, 1.1x10-12, 1.8x10-10, 5.0x10-13, and 8.3x10-17. The salt precipitates that last if the AgNO3 solution is added to the solution containing equal moles of NaCl, NaBr, Nal and Na2CrO4 is -
1. | Agl | 2. | AgCl |
3. | AgBr | 4. | Ag2CrO4 |
Which of the following statements is correct for a reversible process in a state of
equilibrium?
1. ΔG = -2.30 RT logK
2. ΔG = 2.30 RT log K
3. ΔG° = -2.30 RT logK
4. ΔG° = 2.30 RT logK
The pH of the resulting solution when equal volumes of 0.1 M NaOH and 0.01 M HCl are mixed is:
1. 12.65
2. 2.04
3. 7.01
4. 1.35
Among the following pairs of solution the one which is not an acidic buffer is:
1. HClO4 and NaClO4
2. CH3COOH and CH3COONa
3. H2CO3 and Na2CO3
4. H3PO4 and Na3PO4
For the reversible reaction, N2(g) + 3H2(g) — 2NH3(g) + Heat the equilibrium shifts in
forward direction
1. By increasing the concentration of NH3(g)
2. By decreasing the pressure
3. By decreasing the concentrations of N2(g) and H2(g)
4. By increasing pressure and decreasing temperature
For a given exothermic reaction, Kp and K'p are the equilibrium constants at temperatures
T1 and T2 respectively. Assuming that heat of reaction is constant in a temperature range
between T1 and T2, it is readily observed that
1. Kp>K'p
2. Kp<K'p
3. Kp = K'p
4. Kp = 1/K'p
Buffer solutions have constant acidity and alkalinity because
1. these give unionised acid or base or base on reaction with added acid or alkali
2. acids and alkalies in these solutions are shielded from attack by other ions
3. they have large excess of H+ or OH- ions
4. they have fixed value of pH