0
You visited us 0 times! Enjoying our articles? Unlock Full Access!
Question

At constant pressure, the ratio of increase in volume of an ideal gas per degree rise in kelvin temperature to its original volume is (T= absolute temperature of the gas) is
  1. T2
  2. T
  3. 1/T
  4. 1T2

A
T
B
1/T
C
1T2
D
T2
Solution
Verified by Toppr

At constant pressure
V T VV = TT.
Hence ratio of increase in volume per degree rise in kelvin temperature to its original volume
= V/TV = 1T

Was this answer helpful?
2
Similar Questions
Q1
At constant pressure, the ratio of increase in volume of an ideal gas per degree rise in kelvin temperature to its original volume is (T= absolute temperature of the gas) is
View Solution
Q2
At constant volume the ratio of increase in pressure of an ideal gas per degree rise in kelvin temperature to its original pressure
View Solution
Q3
The pressure (P) and absolute temperature (T) of an ideal gas are related to each other as P1T2. If temperature of gas is 300 K and its volume changes from V to 8 V, then find the final temperature of gas
View Solution
Q4
If T represent the absolute temperature of an ideal gas, the volume coefficient of thermal expansion at constant pressure, is :
View Solution
Q5
An ideal gas is initially at temperature T and volume V and at constant pressure, its volume increases by ΔV due to an increase in temperature by ΔT. The quantity μ=ΔV/VΔT varies with temperature as:
View Solution