Pressure in a piston cylinder assembly when both volume and temperature change

In summary, the conversation discusses a problem with calculating the pressure in a closed piston and cylinder assembly due to changes in volume and temperature. The ideal gas law alone is not sufficient and the first law of thermodynamics is needed to account for heat and work. Insulating the piston and using the adiabatic process can help in solving this problem. Examples can be found by searching for "adiabatic expansion."
  • #1
Marts12
14
0
I have a problem in relation to the pressure in a closed piston and cylinder assembly, I know the compression ratio and want to work out the pressure when the volume is at its lowest, boyles law only seems to works if the temperature remains constant but I know that as the piston moves and the volume becomes less the temperature will increase, how to I compensate for this in my calculations to work out pressure if both volume reduces and temperature increases?
 
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  • #2
If you want to constrain two different things (like T and P), you need more than one equation. One equation will be the "ideal gas law" (a generalization of Boyle's law), but that isn't enough by itself. You also need to know something about what heat is doing-- is heat escaping when you compress, or is it all being trapped? Here you need the "first law of thermodynamics", to account for what work and heat are doing to the gas. There is a simple equation for work, but you also need to know what the heat is doing. The simplest thing is to keep the heat bottled in by "insulating" the piston, and then the result is "adiabatic" (use the first law of thermodynamics with zero heat exchange, and then track the work and the ideal gas law to get P and T). It's a little bit of an operation, but it is a very standard problem, you can see examples if you look up "adiabatic expansion."
 
  • #3
Thank you Ken G
 

Related to Pressure in a piston cylinder assembly when both volume and temperature change

1. How does pressure change when both volume and temperature change?

The pressure in a piston cylinder assembly is directly proportional to the temperature and inversely proportional to the volume. This means that as the volume decreases, the pressure increases and as the temperature increases, the pressure also increases.

2. Why does the pressure change when both volume and temperature change?

This relationship can be explained by the ideal gas law, which states that pressure is equal to the number of moles of gas, multiplied by the gas constant, and then divided by the temperature. When the volume decreases, the same number of gas molecules are confined in a smaller space, leading to an increase in pressure. Similarly, when the temperature increases, the molecules have more kinetic energy and collide with the walls of the cylinder more frequently, resulting in an increase in pressure.

3. How does a change in volume affect the pressure in a piston cylinder assembly?

If the volume of the piston cylinder assembly decreases, the pressure will increase. This is because the same amount of gas molecules are now confined to a smaller space, resulting in more collisions with the walls of the cylinder and a higher pressure.

4. How does a change in temperature affect the pressure in a piston cylinder assembly?

An increase in temperature will lead to an increase in pressure in a piston cylinder assembly. This is because the molecules in the gas have more kinetic energy and move faster, causing more collisions with the walls of the cylinder and resulting in a higher pressure.

5. Can both volume and temperature change simultaneously in a piston cylinder assembly?

Yes, both volume and temperature can change simultaneously in a piston cylinder assembly. As mentioned before, the pressure is affected by both factors and will change accordingly. This is often seen in real-life applications, such as in engines or refrigeration systems, where both volume and temperature can change simultaneously to achieve a desired outcome.

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