Heat and Thermodynamics 4 Question 6

6. The specific heats, $C _p$ and $C _V$ of a gas of diatomic molecules, $A$ are given (in units of $J mol^{-1} K^{-1}$ ) by 29 and 22 , respectively. Another gas of diatomic molecules $B$, has the corresponding values 30 and 21 . If they are treated as ideal gases, then

(2019 Main, 9 April II)

(a) $A$ has a vibrational mode but $B$ has none

(b) Both $A$ and $B$ have a vibrational mode each

(c) $A$ has one vibrational mode and $B$ has two

(d) $A$ is rigid but $B$ has a vibrational mode

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Answer:

Correct Answer: 6. (a)

Solution:

  1. Key Idea

A diatomic gas molecule has 5 degrees of freedom, i.e. 3 translational and 2 rotational, at low temperature ranges ( $250 K$ to $750 K$ ). At temperatures above $750 K$, molecular vibrations occurs and this causes two extra degrees of freedom.

Now, in given case,

For gas $A, C _p=29, C _V=22$

For gas $B, C _p=30, C _V=21$

By using

$$ \gamma=\frac{C _p}{C _V}=1+\frac{2}{f} $$

We have,

For gas $A, 1+\frac{2}{f}=\frac{29}{22} \approx 1.3 \Rightarrow f=6.67 \approx 7$

So, gas $A$ has vibrational mode of degree of freedom.

For gas $B$,

$$ 1+\frac{2}{f}=\frac{30}{21} \approx 1.4 \Rightarrow f=5 $$

Hence, gas $B$ does not have any vibrational mode of degree of freedom.



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