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If any other units are used, the value will be different. --Depending on the units you chose the value of the constant differs
R = 0.082 ATM L/mol K
The gas constant (R) makes both sides of the ideal gas equation (PV=nRT) equal. It is therefore called the proportionality constant in the ideal gas equation. The value of R is 8.314 J/mol˚K. If you divide the ideal gas constant by Avogadro's number you get R/NA=(8.314 J mol-1 K-1)/(6.022x1023 #of atoms mol-1)=1.38x10-23 J/(atoms x K) since the mol-1 terms cancel out. This value is the Boltzman constant (kb) usually expressed in units of J/K (energy/temperature) and it gives the average energy of a single atom or molecule at an absolute temperature T. Just multiply kb by T and you get energy in Joules.
In SI units, the gas constant has a value of approximately 8.314 J / (mol x kelvin).
Values of general gas constant are: (value dependant on units) R = 0.08205746 [atm. ℓ.mol-1.K-1] R = 8.314472 [Pa.m3.mol-1.K-1 or J.mol-1.K-1] R = 1.99 [Cal.mol-1.K-1]
If any other units are used, the value will be different. --Depending on the units you chose the value of the constant differs
The units for the gas constant of 0.0821 are liter-atmospheres/mole-Kelvin
L •atm/mole•k
L •atm/mole•k
L •atm/mole•k
It is the value of the constant which appears in an equation relating the volume, temperature and pressure of an ideal gas. Its value is 8.314 4621 Joules/(Mol K).
An ideal capacitor is characterized by a single constant value for its capacitance.
units
Ideal Source
the ideal gas constant D:
R = 0.082 ATM L/mol K
The value of Planck's constant depends on the system of units that are being used. The SI units are designed mainly for everyday measurements, where energies are usually of the order of kilojoules and a small period of time is a minute or second. However, the Planck's constant applies events at a subatomic scale so that these "normal" measurement units are not inappropriate.So the question changes in which units would the Plank's constant become 1. Further, the answer depends on how that change is achieved.