For an ideal gas, the heat of reaction at constant pressure and constant volume are related as
H + E = pV
None of the above
A constant current of 30 A is passed through an aqueous solution of NaCl for a time of 1.00 h. What is the volume of Cl2 gas at STP produced?
30.00 L
25.08 L
12.54 L
1.12 L
At the same conditions of pressure, volume and temperature, work done is maximum for which gas if all gases have equal masses ?
NH3
N2
Cl2
H2S
When 10 A current is passed for 80 min, the volume of hydrogen gas liberated is
11.14 L
5.57 L
22.4 L
2.78 L
The pressure of a fas is 100 kPa. If it is compressed from 1 m3 to 10 dm3 find the work done.
990 J
9990 J
9900 J
99000 J
The work done when two mole of an ideal gas is compressed form a volume of 5 m3 to 1 dm3 at 300 K, under a pressure of 100 kPa is
499.9kJ
-499.9 kJ
-99.5 kJ
42495 kJ
The equation that represents general van't Hoff equation is
A.
This equation was obtained by combining three laws.
(i) Boyle-van't Hoff law ⇒ π ∝ C
If V litres of solution contain n moles of solute, then C = . Then,
(ii) Charles' -van't Hoff law ⇒ π ∝ T
.
(iii) Avogadro-van't Hoff law ⇒ π ∝ n, where, n= number of moles of solute per litre of solution.
Calculate the work done during compression of 2 mol of an ideal gas from a volume of 1 m3 to 10 dm3 300K against a pressure of 100 KPa
-99 kJ
+99 kJ
+22.98 kJ
-22.98 kJ