Dear Ajay Tiwari,
SPECIFIC HEAT AND MOLAR HEAT CAPACITY
(1) Specific heat (or specific heat capacity)of a substance is the quantity of heat (in calories,joules, kcal, or kilo joules) required to raise the temperature of 1g of that substance through 1°C. It can be measured at constant pressure (C
p) and at constant volume (C
v).
(2) Molar heat capacity of a substance is the quantity of heat required to raise the temperature of 1 mole of the substance by 1°C.
∴ Molar heat capacity = Specific heat capacity × Molecular weight, i.e., C
v = c
v × M andC
p = c
p × M.
(3) Since gases on heating show considerable tendency towards expansion if heated under constant pressure conditions, an additional energy has to be supplied for raising its temperature by 1°C relative to that required under constant volume conditions, i.e.,
C
p > C
v or C
p = C
v + Work done in expansion, P

V (= R)
where, C
p = molar heat capacity at constant pressure
C
p = molar heat capacity at constant volume.
(4) Some useful relations of C
p and C
v(i) C
p – C
v = R = 2 calories = 8.314J
(ii) C
p = 3/2 R (for monoatomic gas) and C
v = 3/2 + x (for di and polyatomic gas), where x varies from gas to gas.
(iii) C
p / C
p = γ (Ratio of molar capacities)
(iv) For monoatomic gas, C
p = 3. calories whereas, C
p = C
v + R = 5 calories
(v) For monoatomic gas, (γ) = C
p/C
v = 5/2R / 3/2R = 1.66
(vi) For diatomic gas (γ) = C
p/C
v = 7/2R / 5/2R = 1.40
(vii) For triatomic gas (γ) = C
p/C
v = 8R/6R = 1.33
All the Best & Good Luck !!
Hope this helped you immensely..
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