the kinetic energy per molecule of a gas at temperature T is
Answers
Answered by
19
Answer : 
We know, kinetic energy of any Gaseous molecule spends upon the temperature , and the value is K.E = 3/2 kT
Where k is boltzmann constant.e.g., k = 1.38 × 10⁻²³ and T is temperature.
In ideal gases, as you know, there is no any attraction between two molecule and negligible volume of molecule . when molecule translate in system of temperature T then, kinetic energy of one molecule is equal to 3/2kT
We know, kinetic energy of any Gaseous molecule spends upon the temperature , and the value is K.E = 3/2 kT
Where k is boltzmann constant.e.g., k = 1.38 × 10⁻²³ and T is temperature.
In ideal gases, as you know, there is no any attraction between two molecule and negligible volume of molecule . when molecule translate in system of temperature T then, kinetic energy of one molecule is equal to 3/2kT
Answered by
1
Answer:
3/2R×T
Explanation:
Similar questions