An aqueous solution of hydrogen sulphide shows the equilibrium,
H2S H+ + HS-
If dilute hydrochloric acid is added to an aqueous solution of hydrogen sulphide without any temperature change, then:
1. | The equilibrium constant will change |
2. | The concentration of HS- will increase |
3. | The concentration of undissociated hydrogen sulphide will decrease |
4. | The concentration of HS- will decrease |
When HCl gas is passed through a saturated solution of common salt, pure NaCl is precipitated because:
1. the impurities dissolve in HCl
2. HCl is highly soluble in H2O
3. the product of [Na+] and [Cl-] exceeds the solubility product of NaCl
4. the solubility product of NaCl is lowered by the chloride ion from aqueous HCl
The aqueous solution of a salt is alkaline. This shows that salt is made from:
1. a strong acid and strong base
2. a strong acid and weak base
3. a weak acid and weak base
4. a weak acid and strong base
40% of a racemic mixture of 0.2 moles of N2 and 0.6 moles of H2 react to give NH3 according to the equation, N2 (g) + H2(g)2NH3 (g) at constant temperature and pressure. Then the ratio of the final volume to the initial volume of gases is:
1. 4:5
2. 5:4
3. 7:10
4. 8:5
On addition of inert gas at constant volume to the reaction, N2 + 3H22NH3 at equilibrium:
1. the reaction halts
2. forward reaction is favored
3. the reaction remains unaffected
4. backward reaction is favored
In which of the following case reaction goes farthest to completion?
1. K=103
2. K=10-2
3. K=10
4. K=100
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 decreassing temperature
The equilibrium constants for the reactions are:
H3PO4 H+ + H2P; K1
H2PH+ + HP; K2
HPH+ + P K3
The equilibrium constants for
H3PO43H+ + P will be:
1. K1/K2K3
2. K1xK2xK3
3. K2/K1K3
4. K1+K2+K3
The equilibrium constant for the reaction,
SO3 (g) SO2(g) + O2(g); Kc = 4.9 x 10-2.
The Kc for the reaction: 2SO2(g) + O2(g) 2SO3(g) will be:
1. 416.5
2. 2.40 x10-3
3. 9.8 x10-2
4. 4.9 x10-2
The correct representation for the solubility product constant of Ag2CrO4 is:
1. [Ag+]2[]
2. [Ag2+][]
3. [2Ag+][]
4. [2Ag+]2[]