Gas Expansion and Work: Effects on Internal Energy and Temperature

AI Thread Summary
When lifting a cylinder containing gas, work is done on the gas when it is raised, and the gas does work when it expands. In case 1, lifting the cylinder slowly typically results in minimal change to the gas's internal energy and temperature, as the process allows for heat exchange with the environment. In case 2, lifting the cylinder suddenly may lead to a temporary increase in internal energy and temperature due to rapid compression and potential energy changes. The confusion arises from the distinction between potential energy and kinetic energy, as the gas's temperature primarily reflects its kinetic energy, which may not change significantly in either case. Understanding these concepts is crucial for grasping the thermodynamic principles involved.
gandharva_23
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A cylinder containing a gas is lifted from the first floor to the second floor .What is the amount of work done on the gas ? What is the amount of work done by the gas ? Is the internal energy of the gas increased ? Is the temperature of the gas increased ?
consider 2 cases :
case 1 : the cylinder is taken up slowly
case 2 : cylinder is suddenly taken up and stopped
 
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One needs to show some effort to answer these questions, please. :smile:

What does it mean to do work on the gas, or for the gas to do work?

Does the 'boundary' of the gas change, i.e. does the volume of gas change?
 
Sir i have just started studying heat . did not find it interesting at all . please suggest some good book . What i thought in this question was that the potential energy of the gas molecules will increse so the randomness of gas molecules will change hence the temperature of the gas will increase . But the answer given in the book that i referred was that nothing will change . then i thought it is probably because the tempetature of the gas is only due to the KE of the gas which probably will not change (wont it change ?) and i got totally confused . it is probably the ugliest topic . so many assumptions ...
 
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