According to the state equation
pv=nrt
p=pressure
v=volume
n=number of moles
r=gas constant
t=temperature.
p and v are inversely proportional; as p increases, v decreases, as v increases, p decreases.
KEY
Bold=Pressure
Italicized=volume
If you increase the volume, the pressure decreases.
If you decrease the volume, the pressure increases.
If you increase the pressure, the volume decreases.
If you decrease the pressure, the volume increases.
This is only valid for the same amount of gas at the same temperature!
If you have a fixed volume container and pump more air into it, the volume will remain the same as you increase the pressure.
However if you have a variable volume, sealed container and you reduce the volume of the container (say by sliding a piston down it) then as the volume decreases, the pressure will go up.
If you are talking about a gas, the volume would go down because as pressure increases, the particles will be forced closer together.
Assuming constant temperature, as you increase the pressure the volume will decrease. This is Boyles Law and is expressed as V1P1 = V2P2.
The volume decrease.
The volume reduces.
the temp goes down, the winds go up, and the pressure goes up...
Boyle's Law. This law says that the pressure and volume of a gas are inversely related. In other words, as the pressure of a gas goes up, the volume goes down and vice versa.
what effect does an increase in volume have on fixed cost per unit
As temperature goes up, the volume goes down
If pressure is held constant, volume and temperature are directly proportional. That is, as long as pressure is constant, if volume goes up so does temperature, if temperature goes down so does volume. This follows the model V1/T1=V2/T2, with V1 as initial volume, T1 as initial temperature, V2 as final volume, and T2 as final temperature.
The pressure increases.
If a balloon is squeezed, then that means the volume is decreasing. Volume and pressure vary indirectly, which means that when one goes up, the other goes down. So when you are decreasing the volume of the balloon, the pressure inside is going up (assuming constant mass and temperature).
The particles get closer together and their temperature increases.
Volume and pressure vary indirectly, which means that when one goes up, the other goes down. If the pressure goes up, the volume goes down. If the volume goes up, the pressure goes down.Mathematically:P1V1 = P2V2The left side represents the beginning conditions, and the right side represents the pressure and temperature that have changed. Note that this formula assumes constant mass and temperature.
If a balloon is squeezed, then that means the volume is decreasing. Volume and pressure vary indirectly, which means that when one goes up, the other goes down. So when you are decreasing the volume of the balloon, the pressure inside is going up (assuming constant mass and temperature).
pressure. simple answer is pressure. what happens is that as the gas gets hotter they move move and want more volume, if you don't allow them that volume the pressure goes up. when you get a gas colder, the opposite happens and makes the pressure go down.
The volume goes up by 9 times
It goes up.
Volume increases! If pressure is kept constant then temperature and volume are directly related to each other.(Charle's law). It states that:V1/T1 = V2/T2
It goes up.
It goes up (assuming all other conditions are constant) Learn the universal gas law, seriously, it's not that hard.
With the ideal gas law PV=nRT, if n (number of molecules, R(gas constant) and T (temperature) are fixed, then the product of P (pressure) and V (volume) is also constant. So. Pressure and Volume are inversely related. If pressure goes up, volume must go down and if pressure goes down, volume must increase. The same goes with increasing or decreasing volume.