Pressure and volume are inversely proportional at any given temperature and quantity of molecules. Thus, a mole of gas squeezed into half the volume would have double the pressure if all other things remain equal. Conversely, a mole of gas whose pressure was halved would occupy double the volume, all other things remaining equal.
Boyle found that when the pressure of a gas at constant temperature is increased the volume of the gas decreases.When the pressure is decreased the volume increases.
Boyles law refers to an experimental law involving gas and its pressure, used to measure the volume of that gas. It ultimately measures the pressure and volume of that gas.
yes
Boyle's Law states that when volume increases, pressure decreases and vice versa.
Volume of gas increase it's pressure
Boyle's Law is the inverse relationship between pressure and volume.
The relationship between pressure and volume (apex)
a graph law graph shows the relationship between pressure and volume
Boyle found that when the pressure of a gas at constant temperature is increased the volume of the gas decreases.When the pressure is decreased the volume increases.
"When the pressure of a gas at constant temperature is increased, the volume of the gas decreases. When the pressure is decreased, the volume increases." More precisely, pressure is inversely proportional to volume.
the relationship between pressure and volume a direct or inverse?
In the relationship between volume and pressure when volume increases pressure decreases and when volume decreases pressure increases.
Boyles law refers to an experimental law involving gas and its pressure, used to measure the volume of that gas. It ultimately measures the pressure and volume of that gas.
yes
As the volume decreases, the pressure increases, and as the volume increases, the pressure decreases, which constitutes an inverse relationship
Boyle's Law states that when volume increases, pressure decreases and vice versa.
BOYLES LAW The relationship between volume and pressure. Remember that the law assumes the temperature to be constant. or V1 = original volume V2 = new volume P1 = original pressure P2 = new pressure CHARLES LAW The relationship between temperature and volume. Remember that the law assumes that the pressure remains constant. V1 = original volume T1 = original absolute temperature V2 = new volume T2 = new absolute temperature P1 = Initial Pressure V1= Initial Volume T1= Initial Temperature P2= Final Pressure V2= Final Volume T2= Final Temperature IDEAL GAS LAW P1 = Initial Pressure V1= Initial Volume T1= Initial Temperature P2= Final Pressure V2= Final Volume T2= Final Temperature Answer BOYLES LAW The relationship between volume and pressure. Remember that the law assumes the temperature to be constant. or V1 = original volume V2 = new volume P1 = original pressure P2 = new pressure CHARLES LAW The relationship between temperature and volume. Remember that the law assumes that the pressure remains constant. V1 = original volume T1 = original absolute temperature V2 = new volume T2 = new absolute temperature P1 = Initial Pressure V1= Initial Volume T1= Initial Temperature P2= Final Pressure V2= Final Volume T2= Final Temperature IDEAL GAS LAW P1 = Initial Pressure V1= Initial Volume T1= Initial Temperature P2= Final Pressure V2= Final Volume T2= Final Temperature