The molar gas constant (R), expreseed in J/mol.K, has a value (after IUPAP and IUPAC tables) of 8,314 472 ± 0,000 015.
The relative standard uncertainty is 1,70.
of course. that's why it's called the universal gas constant.
The Universal gas constant is R is independent of the gas taken.. While the Characteristic gas constant depends on the mol. mass of the gas.... The Characteristic gas constant of a gas or a mixture of gases is given by the molar gas constant, divided by the molar mass (M) of the gas/mixture. R(Characteristic) = {R}/{M} Well,this is just the basic...u can relate them both to the Boltzmann constant.. Here are some of the standard values for both: Values of R Units 8.314 472(15) J K−1 mol−1 0.082057 46(14) L atm K−1 mol−1 RChar for dry air Units 287.058 J kg−1 K−1 ok,i guess this is it!Hope this clears it...
the thermometer that works on constant pressure
The gas constant is the same for all gases: R = 8,314 462 1(75) J/mol.K
The temperature and pressure.
Yes - as long as the pressure and temperature are constant.
No, the gas constant, or any constant, is constant meaning it doesn't change.
of course. that's why it's called the universal gas constant.
Boltzmanns constant
Assuming pressure stays constant, the volume decreases by 25%. PV = nRT.
"Characteristic Gas Constant"The constant 'R' used in the characteristic gas equation PV=RT , has a constant value for a particular gas and is called 'Characteristic gas constant' or 'specific gas constant' . Its value depend upon the temperature scale used and the properties of the gas, under consideration.The value of R will be.For atmospheric pressure air,R= 287 J/kg/k
The constant motions allow the gas to fill whatever contains it.
No
No, gas constant is having a value of 8.314Jk-1mol-1 Whereas plancks constant has a value of 6.6*10-31
In Charles' Law, the mass is held constant which means that the pressure on the gas is constant.
As pressure increases, if temperature is constant, the gas will decrease in volume.
R may be the Rydberg constant or the gas constant.