Relation betwn P,V,T in the given case

Thread starter anigeo
Start date Aug 16, 2011
Tags

Relation

AI Thread Summary

In a process where both pressure and volume increase, it is necessary for temperature to also increase, particularly when considering an ideal gas. This relationship is governed by the ideal gas law, which states that pressure, volume, and temperature are interrelated. The only scenario in which pressure and volume can both rise simultaneously is through the addition of heat. Therefore, such a process would be classified as a heating process. Understanding these principles is crucial for analyzing gas behavior in thermodynamics.

Aug 16, 2011

anigeo

if in a process both pressure and volume increase, is it necessary that temp. must increase? by the way what kind of a process it will be?

Physics news on Phys.org

Aug 16, 2011

mathman

Science Advisor

Homework Helper

If you are talking about ideal gas, then the only way to increase pressure and volume at the same time is by heating it up.

Thread 'Off resonance driving of a MW/RF cavity'

Hello! Let's say I have a cavity resonant at 10 GHz with a Q factor of 1000. Given the Lorentzian shape of the cavity, I can also drive the cavity at, say 100 MHz. Of course the response will be very very weak, but non-zero given that the Loretzian shape never really reaches zero. I am trying to understand how are the magnetic and electric field distributions of the field at 100 MHz relative to the ones at 10 GHz? In particular, if inside the cavity I have some structure, such as 2 plates...

View full post »