To answer this question, we must consider the gas law: PV=nRT.
This is an equation of state, so it defines relationships between pressure (P), volume (v), the number of moles in a system (n), the gas constant (R) and temperature (T). Because it is an equation of state, you cannot talk about transformations, only states in certain moments. What you can do, however, is solve the equation for nR, which is conserved.
nR = PV/T
If you hold nR constant, such as you are doing when compressing or expanding gas in a cylinder, you can say that P1V1/T1 = nR = P2V2/T2.
Considering this, what would happen to P2 if you decreased P1? To balance the equation, V would have to go down.
So if you decrease the pressure of a cylinder, but hold temperature constant, the volume would have to decrease as well.
Assuming your cylinder is fixed and has something like a piston allowing for potential movement, the volume will remain the same. The gas will become less densed, as with pressure its more dense.
Assuming we have no loss of gas from the cylinder, the volume will increase as the pressure decreases.
The volume of the gas decreases!
It increases.
Decreases
decreases
It should get pushed in slightly as the molecules are moving slower therefore the pressure inside is reduced
The pressure inside the container will increase. Pressure (P) is force(F) divided by the area(A) it hits on. If you decrease the area, you increase the pressure.
The pressure increases (apex)
how does your body physical change undergo
If the volume of a container of air is reduced by one half the partial pressure of the oxygen with in the container will be doubled. If the volume of a container of gas is reduced, the pressure inside the container will increase.
Assuming your cylinder is fixed and has something like a piston allowing for potential movement, the volume will remain the same. The gas will become less densed, as with pressure its more dense.
It should get pushed in slightly as the molecules are moving slower therefore the pressure inside is reduced
The atmospheric pressure go on falling. So the pressure in the balloon. It takes lot of height to get the pressure reduced. I mean, the reduction in the pressure can not be easily measured for short height.
It should get pushed in slightly as the molecules are moving slower therefore the pressure inside is reduced
The pressure inside the container will increase. Pressure (P) is force(F) divided by the area(A) it hits on. If you decrease the area, you increase the pressure.
It decreases.
C.R.T. are built to to have near vacuum so electrons can easily flow. as pressure increases this capability is reduced accordingly
The pressure increases.
Assuming your cylinder is fixed and has something like a piston allowing for potential movement, the volume will remain the same. The gas will become less densed, as with pressure its more dense.
The pressure increases (apex)
Increased pressure on the inside, or decreased pressure on the outside.
The drop in temperature will cause the atoms (or air) inside the balloon to fall in energy levels, this will result in the pressure inside the balloon dropping, and may cause the balloon to loose its shape.