Find the equilibrium constant for the reaction when one mole of ethyl alcohol reacts with one mole of acetic acid at 25°C,
and 2/3 of the acid is converted into ester at equilibrium.
1. One (1)
2. Two (2)
3. Three (3)
4. Four (4)
For a given solution pH = 6.9 at 60C, where Kw=10-12. The solution is:
1. acidic
2. basic
3. neutral
4. unpredictable
In a buffer solution containing equal concentration of B- and H B, the Kb for B- is 10-10. The pH of buffer solution is
1. 10
2. 7
3. 6
4. 4
Aqueous solution of acetic acid contains
1. CH3COO- and H+
2. CH3COO-, H3O+ and CH3COOH
3. CH3COO-, H3O+ and H+
4. CH3COOH, CH3COO- and H+
The equilibrium:
2SO₂(g) + O₂(g) ⇌ 2SO₃(g)
shifts in the forward direction when:
1. A catalyst is usedThe pH of blood is maintained by CO2 by and H2CO3 in the body and chemical constituents of blood. This phenomenon is called:
1. colloidal
2. buffer action
3. acidic
4. salt balance
Incorrect statement among the following is:
1. Addition of one drop of concentrated HCl in NH4OH solution decreases pH of the solution.
2. A solution of the mixture of one equivalent of each of CH3COOH and NaOH has a pH of 7
3. pH of pure neutral water is not zero.
4. A cold and concentrated H2SO4 has lower H+ ion concentration than a dilute solution of H2SO4
At temperature T, a compound AB2 (g) dissociates according to the reaction 2AB22AB(g) +B2(g) with a degree of dissociation x, which is small compared with unity. The expression for Kp, in terms of x and the total pressure P , is:
1. Px3/2
2. Px2/3
3. Px3/3
4. Px2/2
Find the equilibrium constant (K) for the hydrolysis of ethyl acetate:
CH3COOC2H5 + H+ ⇌ CH3COOH + C2H5OH is
Given that the rate constant for the forward reaction (kf) is 1.1 × 10⁻² min⁻¹ and the rate constant for the backward reaction (kb) is 1.5 × 10⁻³ min⁻¹.
1. 4.33
2. 5.33
3. 6.33
4. 7.33
What happens to pH of a solution when NH4Cl crystal is added to a dilute solution of NH4OH?
1. Decreases
2. Increases
3. Remains unaffected
4. All of the above