An ideal gas can be expanded form an ini...

An ideal gas can be expanded form an initial state to a certain volume through two different processes `PV^(2) =` constant and (ii) `P = KV^(2)` where `K` is a positive constant. Then

Final temperature in (i) will be greater then in (ii)

Final temperature in (ii) will be greater then in (i)

Total heat given to the gas in (i) case is greater than in (ii)

Total heat given to the gas in (ii) case is greater than in (i)

Text Solution

Verified by Experts

The correct Answer is:

B, D

From equation `PV=nRT`
`P_(c ) lt P_(B),V_(c)=V_(B)` and `T_(B) gt T_(c )`
`W_(AB) gt W_(AC) (T_(B)-T_(A)) gt T_(c )-T_(A)`
So By `1st` law
`Q=Delta U+W`
`Q=(f_(i))/(2)nR Delta T+W " " Q_(AB) gt Q_(AC)`

Topper's Solved these Questions

THERMODYNAMICS
RESONANCE|Exercise Exercise-2 part -IV : Comprehension|11 Videos
THERMODYNAMICS
RESONANCE|Exercise Exercise-3 Part-1: JEE (ADVANCED)|11 Videos
THERMODYNAMICS
RESONANCE|Exercise Exercise-2 II: Single and double value integer type|16 Videos
TEST SERIES
RESONANCE|Exercise CHEMISTRY|50 Videos

Similar Questions

Explore conceptually related problems

An ideal gas can be expanded from an initial state to a certain volume through two different processes, (I) PV^(2)=K and (II) P=KV^(2) , where K is a positive constant. Then, choose the correct option from the following.

An ideal gas expands in such a way that PV^2 = constant throughout the process.

An ideal gas expands according to the law PV^(3//2) =constant We conclude that

An ideal gas expands in such a manner that its pressure and volume can be related by equation PV^(2) = constant. During this process, the gas is

An ideal gas is expanded such that PT^(2)=a constant. The coefficient of volume expansion of the gas is

In the process pV^2= constant, if temperature of gas is increased, then

Temperature of an ideal gas is 300 K . The final temperature of the gas when its volume changes from V " to " 2V in the process p=alphaV (here alpha is a positive constant) is

Temperature of an ideal gas is 300 K. The change in temperature of the gas when its volume changes from V to 2V in the process p = aV (Here, a is a positive constant) is

RESONANCE-THERMODYNAMICS-Exercise 2- III : One or more than one options correct type

Which of the following properties of system are intensive ?
Text Solution
|
Which of the following are incorrect ?
Text Solution
|
Choose the correct statement:
Text Solution
|
In an isothermal expansion of a gaseous sample, the correct relation i...
Text Solution
|
During the isothermal of an ideal gas :
Text Solution
|
P-V plot for two gases (assuming ideal) during adiabatic processes are...
Text Solution
|
When some potential difference V is applied across a resistance R then...
Text Solution
|
0.5 mole each of two ideal gasesA (C(v,m)=(5)/(2)R) and B (C(v,m)=3R) ...
Text Solution
|
4 KJ of heat is absorbed when 1 mole of ice melts at 0^(@)C and at con...
Text Solution
|
5 moles of a liqiud L are converted into its vapour at its boiling poi...
Text Solution
|
An ideal gas undergoes adiabatic expansion against constant external p...
Text Solution
|
Three moles of an ideal diatomic gas undergoes a change in state from ...
Text Solution
|
Following graph is constucted for the fixed amount of the gas
Text Solution
|
An ideal gas can be expanded form an initial state to a certain volume...
Text Solution
|