One gram molecule of nitrogen occupies `2 xx 10^(4) cm^(3) ` at a pressure of `10^(6)` dyne`cm ^(=-2).`
Given `: N_(A)= 6 xx 10^(23).` Which of the following is correct ?

A pressure of 10^(6)" dyne"//cm^(2) is equivalent to :

If one gm mole of nitrogen gas occupies 2xx10^(4) c.c. at a pressure of 10^6 dyne/ cm^(2) , then the average kineticf energy of nitrogen gas molecule in ergs will be (Avagadro's number N=6xx10^(23) )

The number of molecules in a litre of a gas at temperature of 27^(@)C and a pressure of 10^(6) dyne cm^(-2)

At a pressure of 24 xx 10^(5) dyne cm^(-2) . The volume of O_(2) is 10 litre and mass is 20 g . The rms velocity will be

Young 's modulus of steel is 2.0 xx 10^(11)N m//(2) . Express it is "dyne"/cm^(2) .

Number of electrons present in 3.6 mg of NH_(4)^(+) are : (N_(A) = 6 xx 10^(23))

If the value of atmospheric pressure is 10^(6) dyne cm^(-2) . Its value in SI units is:

Young's modulus of a metal is 21xx10^(10)N//m^(2) . Express it in "dyne/cm"^(2) .

One atom of an element X weighs 6 xx 10^(-23) gm . Number of moles of atoms in 3.6 kg of sample of X will be : (N_(A) = 6 xx 10^(23))

If the value of atmospheric pressure is 10^(6) dyne cm^(-2) , find its value in SI units.