Assertion An actual gas behaves as an id...

Assertion An actual gas behaves as an ideal gas most closely at low pressure and high temperature.
Reason At low pressure and high temperature, real gases obey the gasl laws.

A

If both Assertion and Reason are correct and Reason is the correct explanation of Assertion.

B

If both Assertion and Reason are correct but Reason is not the correct explation os Assertion.

C

If Assertionis true bur Reason is false.

D

If Assertion is false but Reason is true.

Text Solution

Verified by Experts

The correct Answer is:

A

At the given conditions, the intermolecular force between the gas moleculses is almost zero.

Promotional Banner

Promotional Banner

Topper's Solved these Questions

THERMOMETRY THERMAL EXPANSION AND KINETIC THEORY OF GASES
DC PANDEY|Exercise Match the columns|5 Videos
THERMOMETRY THERMAL EXPANSION AND KINETIC THEORY OF GASES
DC PANDEY|Exercise Medical entrance gallary|30 Videos
THERMOMETRY THERMAL EXPANSION AND KINETIC THEORY OF GASES
DC PANDEY|Exercise A Tacking it together|55 Videos
SUPERPOSITION OF WAVES
DC PANDEY|Exercise Level 2 Subjective|8 Videos
THERMOMETRY,THERMAL EXPANSION & KINETIC THEORY OF GASES
DC PANDEY|Exercise Level 2 Subjective|9 Videos

Similar Questions

Explore conceptually related problems

Real gases behave as ideal gases most closely at low pressure and high temperature. Intermolecular force between ideal gas molecules is assumed to be zero.

Real gases obey ideal gas laws more closely at

A: A real gas will approach ideal behaviour at high temperature and low pressure. R: At low pressure and high temperature z = 1, for all gases

At high temperature and low pressure van der Waal's equation becomes

At same temperature and pressure of an ideal gas

Real gases obey the gas equation : PV=nRT more correctly at low temperature and high pressure.

Statement- 1 : A real gas behaves as an ideal gas at high temperature and low pressure . Statement- 2 : Liquid state of an ideal gas is impossible.

At ______ pressures and _______ temperatures, some real gases behave like an ideal gas.

Real gases show deviation from ideal behaviour at low temperature and high pressure.

At high temperature and low pressure the van der Waals equation is reduced to .

DC PANDEY-THERMOMETRY THERMAL EXPANSION AND KINETIC THEORY OF GASES-B medical entrance special format questions

Assertion At the same temperature and pressure, equal volums of all ga...
Text Solution
|
Assertion In isochoric process p-V graph is straight line parallel to ...
Text Solution
|
Assertion A metallic rod is fixed from two ends as shown in figure. Wh...
Text Solution
|
Assertion Pressure of a gas id given as p=2/3E. Reason In the above ...
Text Solution
|
Assertion An actual gas behaves as an ideal gas most closely at low pr...
Text Solution
|
Assertion In summers, a metallic scale will read more than the actual....
Text Solution
|
Assertion Total kinetic energy of any gas at temperature T would be 1/...
Text Solution
|
Assertion If a gas chamber containing a gas is moved translationally, ...
Text Solution
|
Assirtion Degree of freedom of a monjoatomic gas is always three, whet...
Text Solution
|
Assertion Prssure of a gas is 2/3 times translational kinetic energy o...
Text Solution
|
Assertion Total internal energy of oxygen gas at a given temperature i...
Text Solution
|
Assertion Straight line on V-T graph represents isobaric process. Re...
Text Solution
|
Assertion Any straight line on V-T diagram represents iisobaric proce...
Text Solution
|
Assertion At triple point, three stated (solid, liquid and gas) may co...
Text Solution
|