Home
Class 12
PHYSICS
Volume versus temperature graphs for a g...

Volume versus temperature graphs for a given mass of an ideal gas are shown in Fig. at two different values of constant pressure. What can be inferred about relation between `P_(1) and P_(2)`?

A

`P_(1)gtP_(2)`

B

`P_(1)ltP_(2)`

C

`P_(1)=P_(2)`

D

Data is insufficient

Text Solution

Verified by Experts

The correct Answer is:
A
When presssure is constant, Charles' law is obeyed
l.e V`prop`T or `(V)/(T)=constant =(1)/(p)`
from slope of curves, `P_(1)gtp_(2)`.
Promotional Banner

Topper's Solved these Questions

  • PHYSICS FOR GASEOUS STATE

    BITSAT GUIDE|Exercise BITSAT Archives|8 Videos

  • NULECUS

    BITSAT GUIDE|Exercise BITSAT Archives|8 Videos

  • QUESTION-PAPERS-2012

    BITSAT GUIDE|Exercise Physics|40 Videos

Similar Questions

Explore conceptually related problems

Volume versus temperature graphs for a given mass of an ideal gas are shown in figure. At two different values of constant pressure. What can be inferred about relation between P_(1) and P_(2) ?

The P-T graph for the given mass of an ideal gas is shown in figure. Then the volume

Pressure versus temperature graphs of an ideal gas are as shown in figure. Choose the wrong statement

Pressure versus temperature graph of an ideal gas are as shown in figure-2.39. Choose the wrong statement

The volume-temperature graphs of a given mass of an ideal gas at constant pressure are shown below. What is the correct order of pressure ?

Temperature versus pressure graph of an ideal gas is shown in Fig. During the process AB

Figure shows the volume versus temperature graph for the same mass of a gas (assumed ideal) corresponding to two different pressure P_(1) and P_(2) . Then

Pressure versus temperature graph of an ideal gas as shown in Fig. Corresponding density (rho) versus volume (V) graph will be

At constant temperature for given amount of an ideal gas the correct graph between PV vs P is