.Initially concentration of A is equal to that of B. The equilibrium concentrations of A and C are equal. Kc is
0.08
0.8
8
80
Match List-I with List-II Choose the correct matching codes from the choices given.
List - I (Hydride) | List - II (Type of hydride) |
A. BeH2 | 1. Complex |
B. AsH3 | 2. Lewis acid |
C. B2H6 | 3. Interstitial |
D. LaH3 | 4. Covalent |
E. LiAlH4 |
5. Intermediate 6. Ionic |
A - 6; B - 2; C - 4; D - 5; E - 1
A - 5; B - 4; C - 2; D - 3; E - 1
A - 6; B - 4; C - 2; D - 3; E - 5
A - 6; B - 4; C - 2; D - 3; E - 1
Two moles of PCl5, is heated in a closed vessel of 2 L capacity. When the equilibrium is attained 40% of it has been found to be dissociated. What is the Kc in mol/dm3?
0.532
0.266
0.133
0.174
The equilibrium constant for the reaction
2NO2 (g) 2NO (g) + O2 (g) is 2 × 10-6 at 185°C. Then the equilibrium constant for the reaction,
4NO (g) + 2O2 (g) 2NO2 (g) at the same temperature would be
2.5 × 10-5
4 × 10-12
2.5 × 1011
2 × 106
The dissociation constant of acetic acid Ka is 1.74 × 10-5 at 298 K. The pH of a solution of 0.1 M acetic acid is :
2.88
3.6
4.0
1.0
A.
2.88
For 0.1 M acetic acid or C = 0.1 mL-1
Ka = 1.74 × 10-5
pH = ?
According to Ostwald dilution formula,
[H+] =
=
=
pH = -log10 [H+]
= -log10
= 2.88
The pH of a solution of 0.1M acetic acid is 2.88.
0.365g of HCl gas was passed through 100 cm3 of 0.2 M NaOH solution. The pH of the resulting solution would be :
13
9
8
5
In the given reaction,
2X (g) + Y (g) 2Z (g) + 80 kcal
Which combination of pressure and temperature will give the highest yield of Z at equilibrium?
1000 atm and 200°C
500 atm and 500°C
1000 atm and 100°C
500 atm and 100°C
Which of the following compounds would have the smallest value for pKa?
CHF2CH2CH2COOH
CH3CH2CF2COOH
CH2FCHFCH2COOH
CH3CF2CH2COOH
A saturated solution of CaF2 is 2 × 10-4 mol/ L. Its solubility product constant is:
2.6 × 10-9
4 × 10-8
8 × 10-12
3.2 × 10-11