Figure shows a polytropic process for an ideal gas. The work done by the gas will be in process AB is

Q: Figure shows a polytropic process for an ideal gas. The work done by the gas will be in process $AB$ is

b $\because P_{1} V_{1}^{x}=P_{2} V_{2}^{x}$ $\frac{16 \mathrm{P}_{0}}{\mathrm{P}_{0}}=\left(\frac{2 \mathrm{V}_{0}}{\mathrm{V}_{0}}\right)^{\mathrm{x}}$ $x=4$ $\mathrm{w}=\frac{\mathrm{P}_{2} \mathrm{V}_{2}-\mathrm{P}_{1} \mathrm{V}_{1}}{1-\mathrm{x}}=\frac{2 \mathrm{P}_{0} \mathrm{V}_{0}-16 \mathrm{P}_{0} \mathrm{V}_{0}}{1-4}$ $=\frac{14}{3} \mathrm{P}_{0} \mathrm{V}_{0}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

Figure shows a polytropic process for an ideal gas. The work done by the gas will be in process $AB$ is

A$\frac{{15}}{2}\,{P_0}{V_0}$
B$\frac{{14}}{3}\,{P_0}{V_0}$
C$8\,{P_0}{V_0}$
D
Insufficient information

Medium

STD 11 Science
NEET
STD 11 - 11. thermodynamics
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
Two moles of an ideal monoatomic gas at ${27^o}C$ occupies a volume of $V.$ If the gas is expanded adiabatically to the volume $2V,$ then the work done by the gas will be ....... $J$ $[\gamma = 5/3,\,R = 8.31J/mol\,K]$
View Solution
2
An ideal gas is taken reversibly around the cycle $a-b-c-d-a$ as shown on the temperature $T$ - entropy $S$ diagram. The most appropriate representation of above cycle on a internal energy $U$ - volume $V$ diagram is
View Solution
3
One mole of an ideal gas in initial state $\mathrm{A}$ undergoes a cyclic process $A B C A$, as shown in the figure. Its pressure at $A$ is $\mathrm{P}_0$. Choose the correct option$(s)$ from the following

$(A)$ Internal energies at $\mathrm{A}$ and $\mathrm{B}$ are the same

$(B)$ Work done by the gas in process $\mathrm{AB}$ is $\mathrm{P}_0 \mathrm{~V}_0 \ln 4$

$(C)$ Pressure at $C$ is $\frac{P_0}{4}$

$(D)$ Temperature at $\mathrm{C}$ is $\frac{\mathrm{T}_0}{4}$
View Solution
4
A given ideal gas with $\gamma = \frac{{{C_p}}}{{{C_v}}} = 1.5$ at a temperature $T$. If the gas is compressed adiabatically to one-fourth of its initial volume, the final temperature will be ..... $T$
View Solution
5
A monoatomic ideal gas, initially at temperature ${T_1},$ is enclosed in a cylinder fitted with a frictionless piston. The gas is allowed to expand adiabatically to a temperature. ${T_2}$ by releasing the piston suddenly. If ${L_1}$ and ${L_2}$ are the lengths of the gas column before and after expansion respectively, then ${T_1}/{T_2}$ is given by
View Solution
6
$n-$ $moles$ of an ideal gas with constant volume heat capacity $C_v$ undergo an isobaric expansion by certain volume. The ratio of the work done in the process, to the heat supplied is
View Solution
7
During the adiabatic expansion of $2 \,moles$ of a gas, the internal energy was found to have decreased by $100 J$. The work done by the gas in this process is ..... $J$
View Solution
8
Work done in the given $P-V$ diagram in the cyclic process is
View Solution
9
A diatomic ideal gas is compressed adiabatically to $\frac{1}{32}$ of its initial volume. If the initial temperature of the gas is $T_1$ (in Kelvin) and the final temperature is $a T_1$, the value of $a$ is
View Solution
10
$N$ moles of an ideal diatomic gas are in a cylinder at temperature $T$. suppose on supplying heat to the gas, its temperature remain constant but $n$ moles get dissociated into atoms. Heat supplied to the gas is
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free