A thermally insulated chamber of volume ...

A thermally insulated chamber of volume `2V_(0)` is divided by a frictionless piston of area `S` into two equal part `A` and `B`. Part `A` has an ideal gas at pressrue `P_(0)` and temperature `T_(0)` and part `B` is vacuum. A massless spring of force constant `K` is connected with the piston and the wall of the container as shown. Initially the spring is unstretched. The gas inside chamber `A` is allowed to expand. Let in equilibrium the spring be compressed by `x_(0)`. Then

Pressure of the gas at equilibrium is `(Kx_(0))/(S)`

Work done by the gas is `(1)/(2)Kx_(0)^(2)`

Increase in internal energy of the gas is `(1)/(2)Kx_(0)^(2)`

Temperature of the gas is decreased

Text Solution

Verified by Experts

The correct Answer is:

A, D

Topper's Solved these Questions

KTG & THERMODYNAMICS
RESONANCE|Exercise PART -IV|10 Videos
KTG & THERMODYNAMICS
RESONANCE|Exercise Exercise-3|1 Videos
KTG & THERMODYNAMICS
RESONANCE|Exercise PART -I|15 Videos
KINETIC THEORY OF GASES AND THERMODYNAMICS
RESONANCE|Exercise Exercise|64 Videos
MAGNETIC FIELD AND FORCES
RESONANCE|Exercise Exercise|65 Videos

Similar Questions

Explore conceptually related problems

If a spring of force constant k is divided into n equal parts , then force constant of each part is

A spring (spring constant=k) is cuttend into 4 equal parts and two parts are connected in parallel. What is the effective spring constant?

A cylindrical adiabatic container of total volume 2V_(0) divided into two equal parts by a conducting piston which is free to move as shown in figure. Each part containing identical gas at pressure P_(0) . Initially temperature of left and right part is 4T_(0) and T_(0) respectively. An external force is applied on the piston of area 'A' to keep the piston at rest. The value of external force required when thermal equilibrium is reached is.

A container of volume 1m^3 is divided into two equal parts by a partition. One part has an ideal gas at 300K and the other part is vacuum. The whole system is thermally isolated from the surroundings. When the partition is removed, the gas expands to occupy the whole volume. Its temperature will now be .......

A quantity of gas occupies an initial volume V_(0) at pressure p_(0) and temperature T_(0) . It expands to a volume V (a) constant temperature and (b) constant pressure. In which case does the gas do more work ?

A container with insulating walls is divided into two equal parts by a partition fitted with a valve. One part is filled with an ideal gas at a pressure P and temperature T, whereas the other part is completely evacuated . If the valve is suddenly opened, the pressure and temperature of the gas will be

In the arrangement shown in Fig. gas is thermally insulated. An ideal gas is filled in the cylinder having pressure P_(0) (gt atmospheric pressure P_(0) ). The spring of force constant K is initially unstretched. The piston of mass m and area S is frictionless. In equilibrium, the piston rises up by distance x_(0) , then

A diathermic piston divides adiabatic cylinder of volume V0 into two equal parts as shown in the figure. Both parts contain ideal monoatomic gases. The initial pressure and temperature of gas in left compartment are P0 and T0 while that in right compartment are 2P0 and 2T0. Initially the piston is kept fixed and the system is allowed to acquire a state of thermal equilibrium. The pressure in left compartment after thermal equilibrium is achieved is

A spring obeying Hooke's law has a force constant k. Now if the spring is cut in two equal parts, the force constant of each part is:

RESONANCE-KTG & THERMODYNAMICS-PART -III

Pick the correct statement (s) :
Text Solution
|
Graph shows a hypothetical speed distribution for a sample of N gas pa...
Text Solution
|
A system undergoes a cyclic process in which it absorbs Q(1) heat and ...
Text Solution
|
The pressure P and volume V of an ideal gas both decreases in a proces...
Text Solution
|
An ideal gas can be taken form initial state 1 to final state 2 by two...
Text Solution
|
In given figure, let DeltaU(1) and DeltaU(2) be change in internal ene...
Text Solution
|
Specific heat of a substance can be
Text Solution
|
The following sets of values for C(v) and C(p) of an ideal gas have be...
Text Solution
|
For an ideal gas :
Text Solution
|
An ideal monatomic gas is at P(0), V(0). It is taken to final volume 2...
Text Solution
|
A gaseos mixture consists of equal number of moles of two ideal gases ...
Text Solution
|
Let n(1) and n(2) moles of two different ideal gases be mixed. If adia...
Text Solution
|
An ideal gas can be expanded form an initial state to a certain volume...
Text Solution
|
A cyclic process ABCD is shown is shown in the following P-V diagram. ...
Text Solution
|
A cyclic process of an ideal monoatomic gas is shown in figure. The co...
Text Solution
|
A gas kept in a container of finite conductivity is suddenly compresse...
Text Solution
|
Oxygen, nitrogn and helium gas are kept in three identical adiabatic c...
Text Solution
|
A thermally insulated chamber of volume 2V(0) is divided by a friction...
Text Solution
|
During an experiment, an ideal gas is found to obey a condition (p^2)/...
Text Solution
|
An ideal gas undergoes a thermodynamic cycle as shown in Fig. Which of...
Text Solution
|