According to ideal gas equation `(PV)/(nT)` for ga will always be constant and the constant is same for all gaes. The constant representd as R is termed as universal gas constant has a value equal to 0.0821 atm-lit/mol-K. Another constant Boltzmann constant is defined as `(R)/(N_(A))`=k where `N_(A)` representes Avogadro's number. The value of `(PV)/(kT)` will give:

According to ideal gas equation (PV)/(nT) for ga will always be constant and the constant is same for all gaes. The constant representd as R is termed as universal gas constant has a value equal to 0.0821 atm-lit/mol-K. Another constant Boltzmann constant is defined as (R)/(N_(A)) =k where N_(A) representes Avogadro's number. The value of R in terms of bar -mL/mole-Kelvin will be:

According to ideal gas equation (PV)/(nT) for ga will always be constant and the constant is same for all gaes. The constant representd as R is termed as universal gas constant has a value equal to 0.0821 atm-lit/mol-K. Another constant Boltzmann constant is defined as (R)/(N_(A)) =k where N_(A) representes Avogadro's number. A container of volume 40 litres consists of some gas at a pressure of 2 atm and temperature of 300 K it is heated to 400 K such that half of the gas escapes and volume changes to 60 litres The new pressure of the gas at final condition will be:

The value of universal gas constant R depends on :

Value of gas constant R is

Numerical value of universal gas constant R depends on

Value of gas constant R is .