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2
MCQ (Single Correct Answer)

If an average person jogs, he produces $14.5 \times 10^3 \mathrm{cal} / \mathrm{min}$. This is removed by the evaporation of sweat. The amount of sweat evaporated per minute (assuming 1 kg requires $580 \times 10^3$ cal for evaporation) is

A
0.25 kg
B
2.25 kg
C
0.05 kg
D
0.20 kg
3
MCQ (Single Correct Answer)

Consider p-V diagram for an ideal gas shown in figure.

Out of the following diagrams, which figure represents the T-p diagram?

(i)

(ii)

(iii)

(iv)

A
(iv)
B
(ii)
C
(iii)
D
(i)
4
MCQ (Single Correct Answer)

An ideal gas undergoes cyclic process ABCDA as shown in given p-V diagram. The amount of work done by the gas is

A
$6 p_0 V_0$
B
$-2 p_0 V_0$
C
$+2 p_0 V_0$
D
$+4 p_0 V_0$
5
MCQ (Single Correct Answer)

Consider two containers $A$ and $B$ containing identical gases at the same pressure, volume and temperature. The gas in container $A$ is compressed to half of its original volume isothermally while the gas in container $B$ is compressed to half of its original value adiabatically. The ratio of final pressure of gas in $B$ to that of gas in $A$ is

A
$2^{\gamma-1}$
B
$\left(\frac{1}{2}\right)^{\gamma-1}$
C
$\left(\frac{1}{1-\gamma}\right)^2$
D
$\left(\frac{1}{\gamma-1}\right)^2$
6
MCQ (Single Correct Answer)

Three copper blocks of masses $M_1, M_2$ and $M_3 \mathrm{~kg}$ respectively are brought into thermal contact till they reach equilibrium. Before contact, they were at $T_1, T_2, T_3\left(T_1>T_2>T_3\right)$. Assuming there is no heat loss to the surroundings, the equilibrium temperature $T$ is ( $s$ is specific heat of copper)

A
$T=\frac{T_1+T_2+T_3}{3}$
B
$T=\frac{M_1 T_1+M_2 T_2+M_3 T_3}{M_1+M_2+M_3}$
C
$T=\frac{M_1 T_1+M_2 T_2+M_3 T_3}{3\left(M_1+M_2+M_3\right)}$
D
$T=\frac{M_1 T_1 s+M_2 T_2 s+M_3 T_3 s}{M_1+M_2+M_3}$
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