A gas mixture consists of 2 moles of oxy...

A gas mixture consists of 2 moles of oxygen and 4 moles of argon at temperature T. Neglecting all vibrational modes, the total internal energy of the system is

`4 RT`

`15 RT`

`9 RT`

`11 RT`

Text Solution

Verified by Experts

The correct Answer is:

d. Total internal energy of systme
`U_(o x y g e n) + U_(argo n) = mu_(1) (f_(1))/(2) RT + mu_(2) (f_(2))/(2) RT`
[As `f_(1) = 5` (for oxygen) and `f_(2) = 3` (for argon)]

Topper's Solved these Questions

KINETIC THEORY OF GASES AND FIRST LAW OF THERMODYNAMICS
CENGAGE PHYSICS|Exercise Multiple Corrects|29 Videos
KINETIC THEORY OF GASES AND FIRST LAW OF THERMODYNAMICS
CENGAGE PHYSICS|Exercise Assertion-Reasoning|6 Videos
KINETIC THEORY OF GASES AND FIRST LAW OF THERMODYNAMICS
CENGAGE PHYSICS|Exercise Subjective|22 Videos
KINETIC THEORY OF GASES
CENGAGE PHYSICS|Exercise Compression|2 Videos
LINEAR AND ANGULAR SIMPLE HARMONIC MOTION
CENGAGE PHYSICS|Exercise Multiple Correct Answer Type|9 Videos

Similar Questions

Explore conceptually related problems

A gas mixture coinsists of (2) moles of oxygen and (4) moles of argon at temperature (T). Neglecting all vibrational modes, the total internal energy of the system is (jee 1999) (a) 4 RT (b) 15 RT ( c) 9 RT (d) 11 RT.

A gas mixture consists of 2 moles of oxygen and 4 of Argon at temperature T. Neglecting all vibrational modes, the total internal energy of the system is

A gas mixture consists of 2 moles of O_2 and 3 moles of Ar at temperature T. Neglecting all vibrational modes, the total internal energy of the system is

A gas mixture consists of 2.0 moles of oxygen and 4.0 moles of neon at temperature T. Neglecting all vibrational modes, calculate the total internal energy of the system. (Oxygen has two rotational modes.)

A gas mixture consists of 2.0 moles of oxygen and 4.0 moles of neon at temperature T. Neglecting all vibrational modes, calculate the total internal energy of the system . (0xygen has two rotational modes).

CENGAGE PHYSICS-KINETIC THEORY OF GASES AND FIRST LAW OF THERMODYNAMICS-Single Correct

When 1 mole of monoatomic gas is mixed with 2 moles of diatomic gas, t...
Text Solution
|
Twenty-two grams of CO(2) at 27^(@)C is mixed with 16 g of O(2) at 37^...
Text Solution
|
A gas mixture consists of 2 moles of oxygen and 4 moles of argon at te...
Text Solution
|
A thermodynamic system is taken through the cyclic PQRSP process. The ...
Text Solution
|
Anideal gas is taken around ABCA as shown in the above P-V diagram. Th...
Text Solution
|
An ideal gas of mass m in a state A goes to another state B via three ...
Text Solution
|
The relation between the internal energy U adiabatic constant gamma is
Text Solution
|
A thermodynamic process is shown in Fig. The pressures and volumes cor...
Text Solution
|
If R = universal gas constant, the amount of heat needed to raise the...
Text Solution
|
During an adiabatic process, the pressure of a gas is found to be prop...
Text Solution
|
An ideal gas at 27^(@)C is compressed adiabatically to 8//27 of its or...
Text Solution
|
Four curves A, B, C and D are drawn in Fig. for a given amount of gas....
Text Solution
|
A thermally insulated container is divided into two parts by a screen....
Text Solution
|
Two sample A and B of a gas initially at the square at the same pressu...
Text Solution
|
1 cm^(3) of water at its boiling point absorbs 540 cal of heat to beco...
Text Solution
|
Five moles of hydrogen gas are heated from 30^(@)C to 60^(@)C at const...
Text Solution
|
When an ideal gas (gamma = 5//3) is heated under constant pressure, wh...
Text Solution
|
At 100^(@)C the volume of 1 kg of water is 10^(-3) m^(3) and volume of...
Text Solution
|
In the following pressure-volume diagram, the isochoric, isothermal an...
Text Solution
|
The P-V diagram of a system undergoing thermodynnaic transformation is...
Text Solution
|