Heat capacity (Cp) is an extensive prope...

Heat capacity `(C_p)` is an extensive property but specific heat (C) is an intensive property. What will be the relation between `C_p` and C for 1 mole of water ?

Answer

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STATES OF MATTER (GASES & LIQUIDS)
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If molecular weight of an ideal gas is M, then what is the difference between C_P and C_V for 1 gm of that gas?

Explain with examples: (i) enthalpy of a system is an extensive property (ii) boiling point of a liquid is an intensive property (c) concentration is an intensive property.

Knowledge Check

The relationship between P_c,V_c and T_c is

A

`P_c,V_c=RT`

B

`P_c,V_c=3RT_c`

C

`P_c,V_c=3/5RT_c`

D

`P_c,V_c=3/8RT_c`

K_p and K_c are related as

A

1

B

1/RT

C

2RT

D

RT

Amount of heat required to raise the temperature of 1 kg of water by 1^@C is

A

1K-cal

B

1 Joule

C

1 B. T. U.

D

4.2 Joule

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C_(p) - C_(v) = a for hydrogen gas and C_(p) - C_(v) = b for oxygen gas. What is the relation between a and b?

The ratio of the masses of two liquids is 3:4 and of their specific heats is 2:3. They are at 60^(@)C and 30^(@)C respectively. What will be the final temperature if they are mixed?

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