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.
the temp goes down, the winds go up, and the pressure goes up...
Boyle's Law demonstrates an indirect relationship between pressure and volume of a gas at constant temperature. As pressure increases, volume decreases and vice versa, while keeping temperature constant.
When air is increased in volume, the pressure decreases while the temperature remains constant. This relationship is described by Boyle's Law, which states that the pressure of a gas is inversely proportional to its volume when the temperature is held constant. As the volume increases, the air molecules have more space to move around, leading to a lower pressure.
A syringe is similar to a balloon in effect on pressure. The more air you insert, the less space for fluid. The more pressure exerted on it, the less volume of air and the more the liquid would fill up the space.
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.
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).
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 pressure 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.
The volume goes up by 9 times
When the volume of a gas container decreases, the pressure of the gas increases. This is because pressure and volume are inversely proportional, meaning that as one goes up, the other goes down. So, when the volume decreases, the pressure increases.
It goes up.
It goes up (assuming all other conditions are constant) Learn the universal gas law, seriously, it's not that hard.
When a gas is compressed in a closed container, the pressure of the gas increases because the volume it occupies decreases. This increase in pressure can lead to the gas molecules being closer together, resulting in an increase in temperature.
the temp goes down, the winds go up, and the pressure goes up...
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.
Air goes in it the pressure increases and the tire becomes harder. If you keep pumping it'll eventually blow up.