KCET 2025 | Heat and Thermodynamics Question 2 | Physics

A gas is taken from state A to state B along two different paths 1 and 2. The heat absorbed and work done by the system along these two paths are $Q_1$ and $Q_2$ and $W_1$ and $W_2$ respectively. Then

$\mathrm{W}_1=\mathrm{W}_2$

$Q_1-W_1=Q_2-W_2$

$\mathrm{Q}_1+\mathrm{W}_1=\mathrm{Q}_2+\mathrm{W}_2$

$Q_1=Q_2$

KCET 2025

MCQ (Single Correct Answer)

-0

At $27^{\circ} \mathrm{C}$ temperature, the mean kinetic energy of the atoms of an ideal gas is $\mathrm{E}_1$. If the temperature is increased to $327^{\circ} \mathrm{C}$, then the mean kinetic energy of the atoms will be

$\frac{E_1}{\sqrt{2}}$

$\sqrt{2} \mathrm{E}_1$

$2 \mathrm{E}_1$

$\frac{E_1}{2}$

KCET 2024

MCQ (Single Correct Answer)

-0

The ratio of molar specific heats of oxygen is

1.4

1.67

1.33

1.28

KCET 2024

MCQ (Single Correct Answer)

-0

A solid cube of mass $m$ at a temperature $\theta_0$ is heated at a constant rate. It becomes liquid at temperature $\theta_1$ and vapour at temperature $\theta_2$. Let $s_1$ and $s_2$ be specific heats in its solid and liquid states respectively. If $L_f$ and $L_v$ are latent heats of fusion and vaporisation respectively, then the minimum heat energy supplied to the cube until it vaporises is

$m s_1\left(\theta_1-\theta_0\right)+m s_2\left(\theta_2-\theta_1\right)$

$m L_f+m s_2\left(\theta_2-\theta_1\right)+m L_v$

$m s_1\left(\theta_1-\theta_0\right)+m L_f+m s_2\left(\theta_2-\theta_1\right)+m L_v$

$m s_1\left(\theta_1-\theta_0\right)+m L_f+m s_2\left(\theta_2-\theta_0\right)+m L_v$

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