A
B
C
D
Text Solution
Verified by Experts
The correct Answer is:
|
Topper's Solved these Questions
STATES OF MATTER : GASES AND LIQUIDES
PRADEEP|Exercise COMPETITION FOCUS (Liquefaction of gases and critical temperature)|3 VideosView PlaylistSTATES OF MATTER : GASES AND LIQUIDES
PRADEEP|Exercise COMPETITION FOCUS (Liquid state and properties of liquid)|4 VideosView PlaylistSTATES OF MATTER : GASES AND LIQUIDES
PRADEEP|Exercise COMPETITION FOCUS (Kinetic theory of gases, kinetic energy and molecular speeds|12 VideosView PlaylistSOME p-BLOCK ELEMENTS
PRADEEP|Exercise Competition Focus (JEE( Main and Advanced)/Medical Entrance) VIII. Assertion-Reason Type Questions (Type I)|23 VideosView PlaylistSTATES OF MATTER: SOLID MATTER
PRADEEP|Exercise COMPETITION FOCUS (ASSERTION-REASON)|17 VideosView Playlist
Similar Questions
Explore conceptually related problems
Knowledge Check
Similar Questions
Explore conceptually related problems
PRADEEP-STATES OF MATTER : GASES AND LIQUIDES-COMPETITION FOCUS (Behaviour of real gases and van der Waals equation)
- A gas such as carbon monoxide would be most likely to obey the ideal g...
01:05
|
Playing Now - For one mole of a van der Waals gas when b=0 and T=300 K, the PV vs 1/...
Text Solution
|
Play - What is the pressure of 2 mole of NH(3) at 27^(@)C when its volume is ...
04:37
|
Play - The isotherm obtained for CO is as follows : The compressibility ...
Text Solution
|
Play - For real gases, van der Waals' equation is written as (P+(an^(2))/(V...
06:04
|
Play - The given graph represents the variation of Z (compressibility factor=...
Text Solution
|
Play - Under critical conditions, the compressibility factor for a gas is .
01:10
|
Play - a' and 'b' are van der Waals' constants for gases Chlorine is more eas...
05:15
|
Play - Maximum deviation from ideal gas is expected from
01:08
|
Play - If Z is a compressibility factor, van der Waals' equation at low press...
04:31
|
Play - One mole of a monoatomic real gas satisfies the equation p(V-b)=RT wh...
04:33
|
Play - The correction factor 'a' to the ideal gas equation corresponds to
01:53
|
Play