Class 11th Physics Physics Thermodynamics

For an ideal gas the instantaneous change in pressure 'p' with volume 'v' is given by the equation $\frac{d p}{d v} = - a p .$ If p = p₀ at v = 0 is the given boundary condition, then the maximum temperature one mole of gas can attain is:

(Here R is the gas constant)

Option 1 - <p>0°C</p>

Option 2 - <p><span class="mathml" contenteditable="false"> <math> <mrow> <mfrac> <mrow> <mi>a</mi> <msub> <mrow> <mi>p</mi> </mrow> <mrow> <mn>0</mn> </mrow> </msub> </mrow> <mrow> <mi>e</mi> <mi>R</mi> </mrow> </mfrac> </mrow> </math> </span></p>

Option 3 - <p><span class="mathml" contenteditable="false"> <math> <mrow> <mfrac> <mrow> <msub> <mrow> <mi>p</mi> </mrow> <mrow> <mn>0</mn> </mrow> </msub> </mrow> <mrow> <mi>a</mi> <mi>e</mi> <mi>R</mi> </mrow> </mfrac> </mrow> </math> </span></p>

Option 4 - <p>infinity</p>

7 Views|Posted 7 months ago

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Answered by

Raj Pandey | Contributor-Level 9

7 months ago

Correct Option - 3

Detailed Solution:

$\frac{d P}{d V} = - a P, a t V = V_{0}, P = P_{0}$

T_max =? for n = 1

$\frac{d P}{d V} = - a P$ (Given)

On integrating, we get

$\int_{P_{0}}^{P} \frac{d P}{P} = - a \int_{0}^{v} d V$

$T_{m a x} = \frac{P_{0}}{a e R} ? n = 1$

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