A quantity X is given by `X = ((R )/( N_(A)K))^(2)` where R is the universal gas constant, `N_(A)` is Avagadro number & K is the Boltzmann's constant Dimension of X is that of

The Boltzmann constant k is given by k = ………..

Gas constant 'R' has dimensions :

When the universal gas constant (R) is divided by Avogadro's number (N_(0)) , their ration is called

The value of universal gas constant R depends on :

Numerical value of universal gas constant 'R' depends on

The number of Schottky defects (n) present in an ionic compound containing N ions at temperature T is given by n = Ne^(-E//2KT) , where E is the energy required to create n Schottky defects and K is the Boltzmann constant, If the mole fraction of Schottky defect in NaCl crystal at 2900 K is X , then calculate -ln(x) , Given: DeltaH of Schottky defect = 2 eV and K = 1.38 xx 10^(-23) J K^(-1) 1 eV = 1.608 xx 10^(-19) J

The angular frequency of the damped oscillator is given by omega=sqrt((k)/(m)-(r^(2))/(4m^(2))) ,where k is the spring constant, m is the mass of the oscillator and r is the damping constant. If the ratio r^(2)//(m k) is 8% ,the change in the time period compared to the undamped oscillator

What is the physical significance of the universal gas constant R ?

In the ideal gas equation, the gas constant R has the dimension of -

For a gas R/C_V = 0.4, where R is the universal gas constant and C, is molar specific heat at constant volume. The gas is made up of molecules which are