An insulated box containing a monoatomic...

An insulated box containing a monoatomic gas of molar mass (M) moving with a speed `v_0` is suddenly stopped. Find the increment is gas temperature as a result of stopping the box.

Text Solution

Verified by Experts

The correct Answer is:

`DeltaT = (Mv_(0)^(2))/(3R)`

Topper's Solved these Questions

KTG & THERMODYNAMICS
RESONANCE|Exercise SECTION (D)|2 Videos
KTG & THERMODYNAMICS
RESONANCE|Exercise SECTION (I)|2 Videos
KTG & THERMODYNAMICS
RESONANCE|Exercise SECTION (A)|3 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

An insulated container containing monoatomic gas of molar mass s is moving with a velocity v_0 . If the container is suddenly stopped, find the change in temperature.

An insulated container containing monoatomic gas of molar mass m is moving with a velocity V_(0) . If the container is suddenly stopped , find the change in temperature .

A cubical box containing a gas is moving with some velocity. If it is suddenly stopped, then the internal energy of the gas

A thermally insulated vessel containing diatomic gas of molar mass M is moving with velocity v. the temperature of gas is T. if it is suddenly stopped, then

A box filled with gas moving with constant velocity 30 m/s. Having monoatomic gas of mass (4u). Now block is suddenly stopped. Then find the change in temperature of gas

A closed box contains an ideal gas if temperature of gas increased which

A monoatomic gas of mass 4.0 u is kept in an insulated container. Container is moving with velocity 30 m/s. if container is suddenly stopped then change in temperature of the gas (R= gas contant ) is (X)/(3R) Value of x is ____

A cubical box containing 2 mole of He gas moves with constant speed u on a smooth horizontal surface. If the box suddenly stops, then determine the change in temperature of the gas by assuming mass of box to be negligible.

RESONANCE-KTG & THERMODYNAMICS-SECTION

0.040g of He is kept in a closed container initially at 100.0^(@)C.The...
Text Solution
|
Show that the internal energy of the air (treated as an ideal gas) con...
Text Solution
|
An insulated box containing a monoatomic gas of molar mass (M) moving ...
Text Solution
|
Find the work done by gas going through a cyclic process shown in figu...
Text Solution
|
An ideal gas is compressed at constant pressure of 10^(5)Pa until its ...
Text Solution
|
Determine the work done by an ideal gas doing 1 rarr 4 rarr 3rarr 2 ra...
Text Solution
|
Find the expression for the work done by a system undergoing isotherma...
Text Solution
|
A system absorbs 1000 cal of heat and does 1675J work. If J = 4.18 J//...
Text Solution
|
A cylinder fitted with a piston contains an ideal monoatomic gas at a ...
Text Solution
|
In a thermodynamic process, pressure of a fixed mass of a gas is chang...
Text Solution
|
A diatomic gas done 80J work when expanded isobarically. Find the heat...
Text Solution
|
When 1g of water at 0^(@)C and 1 xx 10^(4)Nm^(-2) pressure is converte...
Text Solution
|
An ideal gas is taken through a cyclic thermodynamic process through f...
Text Solution
|
In given figure, gas is slowely heated for sometime. During the proces...
Text Solution
|
A gas is initially at a pressure of 100 kPa and its volume is 2.0 m^(3...
Text Solution
|
Find the change in the internal energy of 2 kg of water as it heated f...
Text Solution
|
In given figure, An ideal gas a gas is taken through a cyclic process ...
Text Solution
|
An ideal gas is taken through the process ABC as shown in figure. If t...
Text Solution
|
In given figure, one mole of an ideal gas (gamma = 7//5) is taken thro...
Text Solution
|
70 calories of heat required to raise the temperature of 2 moles of an...
Text Solution
|