A system absorbs 600 J of heat and works...

A system absorbs 600 J of heat and works equivalent to 300 J on its surroundings. The change internal energy is

`300 J`

`400 J`

`500 J`

`600 J`

Text Solution

Verified by Experts

The correct Answer is:

We know that `Delta U=Q+W=600+(-300)=300 J`
`W= -300`, because the work done by the system.

Topper's Solved these Questions

THERMODYNAMICS
RESONANCE ENGLISH|Exercise Exercise -2 Part-I: Only one option correct type|23 Videos
THERMODYNAMICS
RESONANCE ENGLISH|Exercise Exercise-2 II: Single and double value integer type|16 Videos
THERMODYNAMICS
RESONANCE ENGLISH|Exercise H-1|1 Videos
TEST SERIES
RESONANCE ENGLISH|Exercise CHEMISTRY|50 Videos

Similar Questions

Explore conceptually related problems

A system absorb 600 J of heat and work equivalent to 300 J on its surroundings. The change in internal energy

A system absorbs 400 J of heat and does work equivalent to 150 J on the surroundings. Calculate the change in the internal energy of the system.

A system absorbs 600 J of heat and does a work of 200 J on its surroundings. ΔE of system is

A system absorbs 800 J of heat and system works equivalent to 900 J by expanding. The value of Delta U for the system is

A gas expands against a constant pressure of 1 atm from a volume of 5L to 10L. During the process, system absorbs 400 J of heat from the surroundings. Calculate the change in the internal energy of the system.

A system absorbs reversibly 600 J of heat and performs 250 J of work. The increase in the internal energy of system is :-

A system is provided 50 J of heat and work done on the system is 10 J. The change in internal energy during the process is

A system absorbs 1500 joule of energy as heat and produces 500 joule of work .the change in internal energy of the system will be :

A system absorbs 50 kJ heat and does 20 kJ of work. What is the net change in the internal energy of the system ?

A system consisting of one mole of an ideal diatomic gas absorbs 200J of heat and does 50J of work on surroundings. What is the change in temperature if vibrational modes of motion are inactive?

RESONANCE ENGLISH-THERMODYNAMICS-Exercise -1 Part -II Only option correct type

Supposing the distance between the atoms of a diatomic gas to be const...
Text Solution
|
The following sets of values for C(v) and C(p) of an ideal gas have be...
Text Solution
|
A system absorbs 600 J of heat and works equivalent to 300 J on its su...
Text Solution
|
A sample of liquid in a thermally insulated constant ( a calorimetre...
Text Solution
|
In an isochoric process the increase in intemal energy is
Text Solution
|
Ideal gas is taken through the process shown in the figure
Text Solution
|
If heat is supplied to an ideal gas in an isothermal process.
Text Solution
|
In an isothermal expansion of an ideal gas. Select wrong statement:
Text Solution
|
A system undergoes a process which absorbed 0.5 KJ of heat and undergo...
Text Solution
|
In an adiabatic expansion of ideal gas
Text Solution
|
The temperature of the system decreases in an
Text Solution
|
1 mol of NH(3) gas at 27^(@)C is expanded under adiabatic condition to...
Text Solution
|
A weather forcecasting plastic balloon of volume 15m^(3) contains hydr...
Text Solution
|
1 mole of an ideal diatomic gas undergoes a reversible polytropic proc...
Text Solution
|
In a cyclic process shown in the figure an ideal gas is adiabatically...
Text Solution
|
The molar heat capacity for the process shown in fig. is
Text Solution
|
In figure, A and B are two adiabatic curves for two different gases. T...
Text Solution
|
If w(1).w(2),w(3) and w(4) are work done in isothermal, adiabatic, iso...
Text Solution
|
One mole of a non-ideal gas undergoes a change of state from (1.0 atm,...
Text Solution
|
A system containing real gas changes it's state from state -1 to state...
Text Solution
|