Two different ideal diatomic gases A and...

Two different ideal diatomic gases `A` and `B` are initially in the same state. `A` and `B` are then expanded to same final volume through adiabatic and isothermal process respectively. If `P_(A), P_(B)` and `T_(A), T_(B)` represents the final pressure and temperature of `A` and `B` respectively then.

`P_(A) lt P_(B)` and `T_(A) lt T_(B)`

`P_(A) gt P_(B)` and `T_(A) gt T_(B)`

`P_(A) gt P_(B)` and `T_(A) lt t_(B)`

`P_(A) lt P_(B)` and `T_(A) gt T_(B)`

Text Solution

Verified by Experts

The correct Answer is:

For adiabatic process
`P V_(1)^(gamma) = P_(A) V_(2)^(gamma)`
`P_(A) = P ((V_(1))/(V_(2)))^(gamma) ……….(i)`
For isothermal process
`P V_(1) = P_(B) V_(2)`
`P_(B) = P (V_(1))/(V_(2)) ……(2)`
From (1) and (2)
`P_(A) lt P_(B)` [For expansion `V_(2) gt V_(1)]`
any by `PV = nRT T_(A) lt T_(B)`

Topper's Solved these Questions

KTG & THERMODYNAMICS
RESONANCE|Exercise PART -III|25 Videos
KTG & THERMODYNAMICS
RESONANCE|Exercise PART -IV|10 Videos
KTG & THERMODYNAMICS
RESONANCE|Exercise Exercise-2|1 Videos
KINETIC THEORY OF GASES AND THERMODYNAMICS
RESONANCE|Exercise Exercise|64 Videos
MAGNETIC FIELD AND FORCES
RESONANCE|Exercise Exercise|65 Videos

Similar Questions

Explore conceptually related problems

Two gases have the same initial pressure, volume and temperature. They expand to the same final volume, one adiabatically and the other isothermally

Two samples A and B are initaially kept in the same state. The sample A is expanded through an adiabatic process and the sample B through an isothermal process. The final volumes of the samples are the same . The final pressures in A and B are p_A and P_B respectively.

Let T_a and T_b be the final temperatures of the samples A and B respectively in the previous question.

Two samples 1 and 2 are initially kept in the same state. The sample 1 is expanded through an isothermal process where as sample 2 through an adiabatic process upto the same final volume. The final temperature in process 1 and 2 are T_(1) and T_(2) respectively, then

Two identical samples of gases are allowed to expand to the same final volume (i) isothermally (ii) adiabatically. Work done is

Two samples A and B of a gas are initially at the same temperature and pressure are compressed from volume V_1 to V/2 (A isothermally and B adiabatically). The final pressure is

Two samples A and B are initially kept in the same state. The sample B through an isothermal process. The final volumes of the samples are the same (a) Compare final temperatures, final pressures and work doen in A and B. (b) Repeat the part (i), If samples are compressed to same final volume.

RESONANCE-KTG & THERMODYNAMICS-PART -I

The given curve represents the variation of temperatue as a function o...
Text Solution
|
Consider a hypotheticla gas with molecules that can move along only a ...
Text Solution
|
The value of C(p) - C(v) is 1.09R for a gas sample in state A and is 1...
Text Solution
|
Find work done by the gas in the process shown in figure.
Text Solution
|
An ideal monoatomic gas undergoes the process AB as shown in the figur...
Text Solution
|
An ideal monoatomic gas is initially in state 1 with pressure p(1) = 2...
Text Solution
|
For two thermodynamic process temperature and volume diagram are given...
Text Solution
|
Curve in the figure shows an adiabatic compression of an ideal gas fro...
Text Solution
|
P(i), V(i)are initial pressure and volumes and V(f) is final volume of...
Text Solution
|
A cylinder containing an ideal gas ( see figure ) and closed by a mova...
Text Solution
|
Two different ideal diatomic gases A and B are initially in the same s...
Text Solution
|
If ideal diatomic gas follows the process, as shown in graph, where T ...
Text Solution
|
A mono-atomic ideal gas is compressed form volume V to V//2 through va...
Text Solution
|
4 moles of H(2) at 500K is mixed with 2 moles of He at 400k. The mixtu...
Text Solution
|
In a process the pressure of a gas is inversely proportional to the sq...
Text Solution
|