P ∝ 1 (T constant)V
or
P1V1 = P2V2 = constant
This correlation was discovered independently by Robert Boyle (1627-1691) of Ireland in 1662 and Edme Mariotte (1620-1684) of France in 1676. In Great Britain, America, Australia, the West Indies and other remnants of the British Empire it is called Boyle's law, while in Continental Europe and other places it is called Mariotte's law.
Standard temperature and pressure are not a condition that was discovered, but a condition that was decided as a standard for use in working with gases.
As thenumber of molecules incresses so does the volume
"Constant pressure" means the pressure must not change.
1. A more correct name is Boyle-Mariotte law. 2. This law is a relation between pressure and volume at constant temperature. The equation is: pV = k where p is the pressure, V is the volume, k is a constant specific for the system.
The equation is pV=k (k is a constant at constant temperature).
In a closed system with constant pressure and no input or output of heat, the gas temperature will remain constant. In that same system, if the pressure is increased, then the gas temperature will also increase. If pressure is decreased, then the gas temperature will decrease.
they have an intimate relationship
they also become constant.
they also become constant.
Boyle's Law is the inverse relationship of pressure and volume with temperature remaining constant. Charles' Law is the direct relationship of temperature and volume with pressure remaining constant. Gay-Lussac's Law is the direct relationshipof pressure and temperature with volume remaining constant. The Combined Gas Law relates all three - volume, pressure, and temperature.
The relationship between absolute temperature and volume of an ideal gas at constant pressure.
At constant temperature, the product of pressure and volume is a constant, or pressure is inversely proportional to volume, is known as Boyle's Law.
The relationship between pressure and volume (apex)
If the volume is constant, the density does not change with temperature. With increasing temperature there is still the same number of molecules confined to the same volume of space, so no difference in density.
When the pressure is constant, the law describing the relationship between volume and temperature is known as Charles' Law: V1/T1 = V2/T2
I'd use a graph showing an exponential decrease: as pressure increases, volume decreases.
Gases Boyle's law states that the Volume of a given amount of gas at constant Temperature varies inversely proportional to Pressure. You have a given volume of gas, and you double its pressure keeping Temperature constant, the volume will reduce by half.
Temperature increases as pressure increases.