The pressure and volume are inversely proportional. If you double one, the other will be reduced by 1/2 (as long as the temperature is constant). Boyles law states: P1V1/T1= P2V2/T2 In English that means, pressure times volume divided by temperature in the first "state" will equal to pressure times volume divided by temperature in the second state. Temperatures are all converted to degrees kelvin. So, calculate the pressure, temperature and volume of a quantity of a gas, change one of the variables of that quantity of gas for the second state and the other values will change to maintain equality. See the Related Question link to the left of this page. = "How do you solve an Ideal Gas Law problem?" =
The "ideal gas" equation gives such relation. It gives fair prediction of the relation
between P,V and T (pressure, volume and absolute temperature) for real gases at
low pressures (in relation to their critical pressure) and high temperatures (in
relation to their critical temperature). The equation is the following:
PV = nRT
where n is number of moles and R is the Universal Gas Constant.
You can find R in different units depending on the units you are going to use.
e.g., R = 8.31447 kPa∙m3/kmol∙K
R = 82.057 L∙atm/kmol∙K
R = 10.73 psia∙ft3/lbmol∙R
Boyle's Law states that pressure and volume are related inversely, so, as the pressure of a gas increases, its volume decreases, and as volume of a gas increases, its pressure decreases.
PV = nRT
The more volume, the more pressure. Depending on what gas it is, it would most likely be proportional. Such as 1 cubic meter of gas per 2 pounds.
Sorry, but this is exactly wrong. If temperature and amount of gas (mass) remain constant, and volume increases pressure will decrease.
According to Boyle's Law at constant temperature, the volume of a given quantity of gas varies inversily with the pressure exerted on it.
gas pressure is inversely proportional to gas volume.more volume.less pressure&vice versa
PV=RT, Pressure and Volume are inversely related, P=K/T.
Increasing the pressure the volume of a gas decrease.
The pressure increase.
For a gas, pressure and volume are inversely related. If pressure decreases, volume will increase.
Volume ChangesThe volume of any solid, liquid, or gas will change with changes in temperature.
As the temperature of a gas increases, so does the volume.
The volume decreases
The pressure increase.
There are two factors that affect gas pressure. These factors are temperature and volume. Higher volume means lower pressure. Higher temperature means higher pressure.
For a gas, pressure and volume are inversely related. If pressure decreases, volume will increase.
The volume decreases
If you increase the volume of the container, and not the gas itself, then the pressure decreases. If you increase the volume of the gas, and not the container, then the pressure increases.
Change the pressure and/or the temperature of the gas.
It affects pressure, not volume.
At a constant temperature, the volume and the pressure are inversely proportional, that it, the greater the volume, the lesser the pressure on the gas, and viceversa.
Gas tends to take the shape of the volume it's in. If the volume is reduced, then the pressure of the gas will increase.
At a constant temperature, the volume and the pressure are inversely proportional, that it, the greater the volume, the lesser the pressure on the gas, and viceversa.
The volume decreases (smaller,less)
Volume ChangesThe volume of any solid, liquid, or gas will change with changes in temperature.