![How to Calculate the Average Kinetic Energy of Molecules in Gas at a Certain Temperature | Physics | Study.com How to Calculate the Average Kinetic Energy of Molecules in Gas at a Certain Temperature | Physics | Study.com](https://study.com/cimages/videopreview/videopreview-full/7n77mfnqy6.jpg)
How to Calculate the Average Kinetic Energy of Molecules in Gas at a Certain Temperature | Physics | Study.com
![The translational kinetic energy of molecules of one mole of a mono atomic gas is U = 3NKT2 . The value of atomic specific heat of gas under constant pressure will be The translational kinetic energy of molecules of one mole of a mono atomic gas is U = 3NKT2 . The value of atomic specific heat of gas under constant pressure will be](https://haygot.s3.amazonaws.com/questions/1984229_1509626_ans_2c02353d333a49559f2186c657add080.jpg)
The translational kinetic energy of molecules of one mole of a mono atomic gas is U = 3NKT2 . The value of atomic specific heat of gas under constant pressure will be
![OneClass: 6. Chapter: 2 Lesson: 1 Question: Green light of wavelength 516 nm is absorbed by an atomic... OneClass: 6. Chapter: 2 Lesson: 1 Question: Green light of wavelength 516 nm is absorbed by an atomic...](https://prealliance-textbook-qa.oneclass.com/qa_images/homework_help/question/qa_images/121/12106415.jpeg)
OneClass: 6. Chapter: 2 Lesson: 1 Question: Green light of wavelength 516 nm is absorbed by an atomic...
![OneClass: Green light of wavelength 516 nm is absorbed by an atomic gas. What is the energy differenc... OneClass: Green light of wavelength 516 nm is absorbed by an atomic gas. What is the energy differenc...](https://prealliance-textbook-qa.oneclass.com/qa_images/homework_help/question/qa_images/110/11005642.png)
OneClass: Green light of wavelength 516 nm is absorbed by an atomic gas. What is the energy differenc...
A monoatomic ideal gas is given 200J of energy at cons†an t pressure. The increase in internal energy of gas will be
![At 27^(@)C, two moles of an ideal mono-atomic gas occupy a volume V. The gas expands adiabatically to a volume 2V. Calculate (a) final temperature of the gas (b) change in its At 27^(@)C, two moles of an ideal mono-atomic gas occupy a volume V. The gas expands adiabatically to a volume 2V. Calculate (a) final temperature of the gas (b) change in its](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/643140921_web.png)