Gas at a pressure P(0) in contained as a...

Gas at a pressure `P_(0)` in contained as a vessel. If the masses of all the molecules are halved and their speeds are doubles. The resulting pressure P will be equal to

A

`4P_(0)`

B

`2P_(0)`

C

`P_(0)`

D

`(rho_(0))/(2)`

Text Solution

Verified by Experts

The correct Answer is:

D

`P=(1)/(3)rho(V_(rms))rArrPpropm(V_(rms))^(2)`

Doubtnut Promotions Banner Desktop Dark

Doubtnut Promotions Banner Mobile Dark

|

Topper's Solved these Questions

KINETIC THEORY OF GASES
NARAYNA|Exercise SOLVED EXAMPLE|83 Videos
KINETIC THEORY OF GASES
NARAYNA|Exercise C.U.Q|153 Videos
KINETIC THEORY OF GASES
NARAYNA|Exercise LEVEL-VI|10 Videos
GRAVITATION
NARAYNA|Exercise EXERCISE -IV|40 Videos
LAW OF MOTION
NARAYNA|Exercise EXERCISE - IV|35 Videos

Similar Questions

Explore conceptually related problems

A gas in a vessel is at the pressure P_(0) . If the masses of all the molecules be made half and their speeds be made double, then find the resultant pressure.

If the pressure P_(0) is contained in a vessel. If the masses of all the molecules are halved and their speeds doubled, the resulting pressure would be

Knowledge Check

Gas at a pressure P_(0) is contained in a vessel. If the masses of all the molecules are halved and their speeds are doubled, the resulting pressure P will be equal to

A

`4P_(0)`

B

`2P_(0)`

C

`P_(0)`

D

`P_(0)//2`

Gas at a pressure P_phi is contained in a vessel . If the masses of all the molecules are halved and their speeds are doubled the resulting pressure P will be equal to:

A

` 4P_0`

B

` 2P_0`

C

`P_0`

D

` (P_0)/(2)`

A gas at pressure P_(0) is contained in a vessel. If the masses of all the molecules are halved and their speeds doubled, the resulting pressure would be

A

`4P_(0)`

B

`2P_(0)`

C

`P_(0)`

D

`(P_(0))/(2)`

Similar Questions

Explore conceptually related problems

In a vellel,the gas is at a pressure P. If the mass of all the molecules is halved and their speed is doubled, then the resultant pressure will be

A gas is filled in a container at pressure Po . If the mass of molecules is halved and their rms speed is doubled. The resultant pressure would be

A gas is filled in a container at pressure P_(0) . If the mass of molecules is halved and their rms speed is doubled, then the resultant pressure would be

if the masses of all molecules of a gas are halved and their speeds doubled, then the ratio of initial and final pressures would be

If masses of all molecules of a gas are halved and the speed doubled. Then the ratio of initial and final pressure is :

NARAYNA-KINETIC THEORY OF GASES-LEVEL-I (H.W)

Gas at a pressure P(0) in contained as a vessel. If the masses of all ...
02:14
|
At what temperature is the K.E. Of a gas molecules half that of its va...
00:57
|
The average kinetic energy of a gas -23^(@)C and 75Cm pressure is 5xx1...
02:00
|
The kinetic energy of translation of 20gm of oxygen at 47^(@)C is (mol...
01:41
|
The total kinetic energy of 10 litres of helium molecules at 5 atmosph...
01:42
|
molecules have 'rms' velocity 2km/s. The 'rms' velocity of the oxygen ...
01:36
|
To what temperature should the oxygem at 27^(@)C be heated at constant...
02:01
|
At a pressure of 24xx10^(5) dyne/cm^(2), the volume of N(2) is 5litre ...
02:10
|
A sample of gas is at 0^(@)C. To what temperature it must be raised in...
01:48
|
Four molecule of a gas are having speeds of 1, 4, 8 and 16 ms^(-1). Th...
01:27
|
Two vessels having equal volume contain molecular hydrogen at one atmo...
04:17
|
Calculate the rms velocity of molecules of a gas of density 1.5 g litr...
01:48
|