What is the final temperature of a perfect gas at 27 degree Celsius is heated at constant pressure till its volume is triple?
Table of Contents
- 1 What is the final temperature of a perfect gas at 27 degree Celsius is heated at constant pressure till its volume is triple?
- 2 What happens when a gas is compressed to half of its volume?
- 3 What will be the volume if the temperature is doubled at a constant pressure?
- 4 What is the final temperature of a perfect gas at 27?
- 5 Is compressed isothermally half of its initial volume?
- 6 What happens to a gas when its compressed?
- 7 What happens to the volume of an ideal gas if its temperature is doubled and pressure halved?
What is the final temperature of a perfect gas at 27 degree Celsius is heated at constant pressure till its volume is triple?
So T2 i.e. final temperature is 600K or 327°C….
What happens when a gas is compressed to half of its volume?
Naturally, compression of gas increases the temperature of the gas as the volume is reduced.
How does the temperature of a gas change when it is compressed?
Therefore all the atoms which are in the vessel will have picked up speed. This means that when we compress a gas slowly, the temperature of the gas increases.
What will be the volume if the temperature is doubled at a constant pressure?
If the pressure on the piston is again doubled, the volume of gas decreases to one-fourth its original volume. FIGURE 9.8 Boyle’s Law: At constant temperature, the volume of a gas sample is inversely proportional to the pressure….
Initial Conditions | Final Conditions | |
---|---|---|
temperature | T1 = 20°C | T2 =37°C |
What is the final temperature of a perfect gas at 27?
3270C.
What is the volume of an ideal gas which is compressed from?
So, the volume of an ideal gas is 22.41 L/mol at STP.
Is compressed isothermally half of its initial volume?
gas
The same gas is compressed separately through an adiabatic process until its volume is again reduced to half.
What happens to a gas when its compressed?
During compression, the volume (V) of a gas decreases. When this happens, the pressure (P) of the gas increases if the number of moles (n) of gas remains constant. If you keep the pressure constant, reducing the temperature (T) also causes the gas to compress.
When the volume of an ideal gas is doubled while the temperature is halved the pressure is?
Thus, doubling the Kelvin temperature and halving the pressure quadruples the volume.
What happens to the volume of an ideal gas if its temperature is doubled and pressure halved?
The volume of the gas will increase by a factor of 2⋅2=4 .