directly proportional to its absolute temperature.
B
inversely proportional to its absolute temperature.
C
independent of temperatuer.
D
zero at `0^(@)C`.
Text Solution
Verified by Experts
The correct Answer is:
A
Kinetic energy per …………… `KE prop T` It is zero at 'zer' keivin.
Topper's Solved these Questions
TEST PAPERS
RESONANCE|Exercise PART - III CHEMISTRY SEC - 1|12 Videos
TEST PAPERS
RESONANCE|Exercise PART - III CHEMISTRY SEC - 2|18 Videos
SURFACE CHEMISTRY
RESONANCE|Exercise Section - 5|1 Videos
TEST SERIES
RESONANCE|Exercise CHEMISTRY|50 Videos
Similar Questions
Explore conceptually related problems
Determine the average value of the translational kinetic energy of the molecules of an ideal gas at temperatures (a) 20.0^@ C and (b) 80.0^@ C . What is the translational kinetic energy per mole of an ideal gas at (c) 20.0^@ C and (d) 80.0^@ C ?
Amongs the following select incorrect statement(s) for kinectic energy per mole of an ideal gas.
Mean kinetic energy per gram mole of an ideal gas at 0^(@)C is nearly (R=8.320J//gm" mol"xxK)
Kinetic theory of gases is a generalization offered by Maxwell. Boltzmann, Clausius, etc. to explain the behaviour of ideal gases. This theory assumes that ideal gas molecules neither attract nor repel each other. Average kinetic energy of gas molecules is directly proportional to the absolute temperature. A gas equation called kinetic gas equation was derived on the basis of kinetic theory PV = (1)/(3) mv^(2) The average kinetic energy per molecule of an ideal gas is equal to :
If E is the total energy, U is the potential enegy and K is the kinetic energy of a mole of an ideal gas
On the basis of kinetic theory of gases, the mean kinetic energy of 1 mole of an ideal gas per degree of freedom is
Calculate the kinetic energy of 2 moles of an ideal gas at 27^(@)C .
