A thermodynamic system goes from states ...

A thermodynamic system goes from states (i) `P_(1),V` to `2P_(1),V` (ii) `P,V_(1)` to `P.2V_(1)`. Then work done in the two cases is

A

Zero,Zero

B

Zero,`PV_(1)`

C

`-PV_(1)`, Zero

D

`-PV_(1),P_(1)V_(2)`

Text Solution

Verified by Experts

The correct Answer is:

B

Case (i) `Delta V=0, W=0`
Case (ii) `P= "constant", W= -P(2V_(1)-V_(1))=-PV_(1)`

Topper's Solved these Questions

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

Similar Questions

Explore conceptually related problems

A thermodynamic system goes from states (i) P_(1) V to 2P_(1) , V (ii) P , V to P , 2 V . Then work done in the two cases is

A system changes from the state (P_(1),V_(1)) to (P_(2)V_(2)) as shwon in the diagram. The workdone by the system is

A thermo-dynamical system is changed from state ) , (P_(1),V_(1)) to (P_(2),V_(2)) by two different process. The quantity which will remain same will be

A system changes from the state (P_(1), V_(1)) to (P_(2) , V_(2)) as shown in the figure below. What is the work done by the system –

A gaseous system changes from state A(P_(1),V_(1),T_(1)) to B(P_(2),V_(2),T_(2)) , B to C(P_(3),V_(3),T_(3)) and finally from C to A . The whole process may be called

A gaseous system changes from state A(P_(1), V_(1), T_(1)) to B(P_(2), V_(2) , T_(2)) , B to C (P_(3), V_(3) T_(3)) and finally from C to A. The whole process may be called

A gaseous system changes from state A (P_(1), V_(1),T_(1)) to B (P_(2), V_(2),T_(2)) to C(P_(3), V_(3),T_(3)) and finally from C to A . The whole process may be called :

Ideal gas undergoes an adiabatic change in its state from (P_1 V_1 , T_1) to (,P_2 ,V_2 T_2 ) . The work done (W) in the process is (n = number of moles, C_p and C_v are molar specific heats of gas)

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

Temeprature of 1 mole of a gas is increased by 2^(@) at constant press...
Text Solution
|
Mechanical work is specially important in system that contain
Text Solution
|
A thermodynamic system goes from states (i) P(1),V to 2P(1),V (ii) P,V...
Text Solution
|
The work done in ergs for the reversible expansion of one mole of an i...
Text Solution
|
An ideal gas is taken around the cycle ABCA as shown in P-V diagram. T...
Text Solution
|
An ideal gas change from state a to state b as shown in Fig. what is t...
Text Solution
|
In given figure, let Delta W and Delta W(2) be the work done by the ga...
Text Solution
|
Freezing up liquid in a system then:
Text Solution
|
A piece of zinc at a temperature of 20^(@)C weighing 65.38 g is droppe...
Text Solution
|
Which has maximum internal energy at 290K ?
Text Solution
|
Let Delta U(1) and Delta U(2) be the changes in internal energy of an ...
Text Solution
|
The process Delta U=0, for an ideal gas can be best represented in the...
Text Solution
|
For 2 mole of an ideal gas , the relation between C(p) & C(v) (non-mol...
Text Solution
|
When an ideal gas is heated at constant pressure, the fraction of the ...
Text Solution
|
Supposing the distance between the atoms of a diatomic gas to be const...
Text Solution
|
The following sets of volume of C(v) and C(p) of an ideal gas have bee...
Text Solution
|
A system absorb 600 J of heat and work equivalent to 300 J on its surr...
Text Solution
|
A sample of liquid in a thermally insulated constant ( a calorimetre...
Text Solution
|
In an isochoric process the increase in internal energy is
Text Solution
|
Ideal gas is taken through the process shown in the figure :
Text Solution
|