Cp and Cv are two specific heat capaciti...

`C_p` and `C_v` are two specific heat capacities of gases then `(C_p)/(C_v)` will be-

A

Greater than 1

B

Less that 1

C

Eequal 1

D

Same for all gasses,

Text Solution

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The correct Answer is:

A

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Standing waves of frequency 5.0 kHz are produced in a tube filled with oxygen at 300k . The separation between the consecutive nodes is 3.3 cm . Calculate the specific heat capacities (C_p and C_v) of the gas.

The ratio of the specific heats of a gas is (C_(p))/(C_(v))=1.66 then the gas may be

Knowledge Check

C_(p) and C_(v) denote the molar specific heat capacities of a gas at constant pressure and volume respectively. Then :

A

`C_(p)+C_(v)` is larger for a diatomic ideal gas than for a monoatomic ideal gas.

B

`C_(p)-C_(v)` is larger for a diatomic ideal gas ghtan for a monoatomic ideal gas.

C

`C_(p).C_(v)` is larger for a diatomic ideal gas than for monoatomic ideal gas.

D

`C_(p)//C_(v0` is larger for a diatomic ideal gas than for a monoatomic ideal gas.

C_v and C_p denote the molar specific heat capacities of a gas at costant volume and constant pressure, respectively. Then

A

`C_p-C_v` is larger for a diatomic ideal gas than for a monoatomic ideal gas

B

`C_p+C_v` is larger for a diatomic ideal gas than for a monatomic ideal gas

C

`C_p//C_v` is larger for a diatomic ideal gas than for a monoatomic ideal gas

D

`C_p.C_v` is larger for a diatomic ideal gas than for a monoatomic ideal gas

C_(V)andC_(P) denote the molar specific heat capacities of a gas at constant volume and constant pressure, respectively. Then

A

`C_(P)-C_(V)` is larger for a diatomic ideal gas than for a monoatomic ideal gas

B

`C_(P)+C_(V)` is larger for a diatomic ideal gas than for a monoatomic ideal gas

C

`C_(P)//C_(V)` is larger for a diatomic ideal gas than for a monoatomic ideal gas

D

`C_(P).C_(V)` is larger for a diatomic ideal gas than for a monoatomic ideal gas

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For one mole of an ideal gas (C_(p) and C_(v) are molar heat capacities at constant presure and constant volume respectively)

If for hydrogen C_(P)-C_(V)=m and for the nitrogen C_(P)-C_(V) = n , where C_(P) and C_(V) refer to specific heat per unit mass at constant pressure and specific heat per unit mass at constant volume respectively. The relation between m and n is

C_p and C_v are specific heats at constant pressure and constant volume respectively. It is observed that C_p - C_v = a for hydrogen gas C_p = C_V = b for nitrogen gas The correct relation between a and b is:

When water is heated from 0^(@)C to 4^(@)C and C_(P) and C_(V) are its specific heats at constant pressure and constant volume respectively , then :-

If C_(p) and C_(v) denoted the specific heats of unit mass of nitrogen at constant pressure and volume respectively, then

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