P stands for pressure. V stands for volume. n stands for the number of moles of gas. T stands for temperature. R is a little tricky, you could change the formula by using different units, R changes in value depending on what units you use in order to balance the equation. If you use Kelvin, Liters, Moles, and atmospheres then there is a specific number for R which you need to use and can be looked up.
PV=nRT is the ideal gas law. P is pressure, V is volume, n is the moles of the gas, R is a constant and is equals 8.314 J/K(mol), and T is temperature measured in Kelvin.
NkBT,
here N stands for no: of molecules
kB stands for boltzmann const , its value is 1.38*10^(-23)
t stands for temp
R remains constant and it is known as universal gas constant.
pV = nRT is the summation of the ideal gas law.
R is the universal gas constant whose values are:-
R = 0.082 atm. â„“.mol-1.K-1
R = 8.314 Pa.m3.mol-1.K-1
R = 1.99Cal.mol-1.K-1
PV =nRT
PV=nRT also as an aside: Laws are described Law is described
This is the general law of gases:PV = nRT (n is the number of moles)
p absolute pressure v absolute volume n number of moles present r gas constant t substances temperature in kelvin pV=nRT
p= pressure v=volume n=moles r= constant 8.14 Latm/molK t=temperature
r is the constant 0.0821
V=nRT/P
PV =nRT
PV=nRT also as an aside: Laws are described Law is described
PV=nRT
2.02atm
inversely proportional
This equation is: PV=nRT.
This is the general law of gases:PV = nRT (n is the number of moles)
p absolute pressure v absolute volume n number of moles present r gas constant t substances temperature in kelvin pV=nRT
Most other temperature scales are not absolute - the lowest possible temperature is not zero.
This formula is the ideal gas law. It relates different measurements in a gas, and has nothing to do with power.