Question

Two moles of an ideal monoatomic gas occupies a volume $$V$$ at $${27^ \circ }C.$$  The gas expands adiabatically to a volume $$2V.$$ Calculate $$(a)$$ the final temperature of the gas and $$(b)$$ change in its internal energy.

A. (a) 189 $$K$$   (b) 2.7 $$kJ$$
B. (a) 195 $$K$$   (b) $$- 2.7 kJ$$
C. (a) 189 $$K$$   (b) $$- 2.7 kJ$$  
D. (a) $$195 K$$   (b) $$2.7 kJ$$
Answer :   (a) 189 $$K$$   (b) $$- 2.7 kJ$$
Solution :
In an adiabatic process
$$\eqalign{ & T{V^{\gamma - 1}} = {\text{Constant}} \cr & {\text{or, }}{T_1}{V_1}^{\gamma - 1} = {T_2}{V_2}^{\gamma - 1} \cr} $$
For monoatomic gas $$\gamma = \frac{5}{3}$$
$$\eqalign{ & \left( {300} \right){V^{\frac{2}{3}}} = {T_2}{\left( {2\,V} \right)^{\frac{2}{3}}} \cr & \Rightarrow \,\,{T_2} = \frac{{300}}{{{{\left( 2 \right)}^{\frac{2}{3}}}}} \cr} $$
$${T_2} = 189K$$   (final temperature)
Change in internal energy $$\Delta U = n\frac{f}{2}R\,\Delta T$$
$$\eqalign{ & = 2\left( {\frac{3}{2}} \right)\left( {\frac{{25}}{3}} \right)\left( { - 111} \right) \cr & = - 2.7\,kJ \cr} $$

Releted MCQ Question on
Heat and Thermodynamics >> Thermodynamics

Releted Question 1

An ideal monatomic gas is taken round the cycle $$ABCDA$$   as shown in the $$P - V$$  diagram (see Fig.). The work done during the cycle is
Thermodynamics mcq question image

A. $$PV$$
B. $$2PV$$
C. $$\frac{1}{2}PV$$
D. zero
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Releted Question 2

If one mole of a monatomic gas $$\left( {\gamma = \frac{5}{3}} \right)$$  is mixed with one mole of a diatomic gas $$\left( {\gamma = \frac{7}{5}} \right)$$  the value of $$\gamma $$ for mixture is

A. 1.40
B. 1.50
C. 1.53
D. 3.07
View Answer
Releted Question 3

A closed compartment containing gas is moving with some acceleration in horizontal direction. Neglect effect of gravity. Then the pressure in the compartment is

A. same everywhere
B. lower in the front side
C. lower in the rear side
D. lower in the upper side
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Releted Question 4

A gas mixture consists of 2 moles of oxygen and 4 moles of argon at temperature $$T.$$ Neglecting all vibrational modes, the total internal energy of the system is

A. $$4\, RT$$
B. $$15\, RT$$
C. $$9\, RT$$
D. $$11\, RT$$
View Answer

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