Assuming `N_2` molecule of spherical shape with radius `2 xx 10^(-10)`m, the percentage of empty space in one mole of `N_2` gas taken at STP is :

Atomic and molecular sizes are typically of the order of a few Angstroms. Assuming that a N_2 molecules is spherical in shape with radius (r) = 2 xx 10^(-10) m, calculate the percentage of empty space in one mole of N_2 gas at S.T.P.

Atomic and molecular sizes are typically of the order of a few Angstroms. Assuming that a N_2 molecules is spherical in shape with radius (r) = 2 xx 10^(-10) m, calculate the volume of a single N_2 molecule,

Assuming a nitrogen molecule spherical in shape and occupying the radius 200 pm calculate (a) The volume of single molecule of gas (b) the percentage of empty space in one mole of N_(2) gas at NTP ? .

A gas jar contains 7.2 xx 10^(20) molecules of NH_(3) gas. Find : number of moles

A uniform cylindrical wire is subjected to a longitudinal tensile stress of 5 xx 10^(7) N//m^(2) . Young's modulus of the material of the wire is 2 xx 10^(11) N//m^(2) . The volume change in the wire is 0.02% . The factional change in the radius is

"x" L of methane gas at STP contains 1.5xx10^(21) molecules. The number of molecules in "x" L of sulphur diocide at STP will be :

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

A gas jar contains 7.2 xx 10^(20) molecules of NH_(3) gas. Find : volume in cm_(3) of ammonia gas at S. T.P. [N = 14, H = 1]

The Ne atom has 10 times the mass of H_(2) molecule. Which of the following statements is true? I. At 25^(@)C both of them have the same kinetic energy. II. Ten moles of H_(2) would have the same volume as 1 mole of Ne at same temp. and pressure. III. One mole of Ne exerts the same pressure as one mole of H_(2) at STP. IV. A H_(2) molecule travels 10 times faster than Ne atom at same temperature. V. At STP, one litre of Ne has 10 times the density of 1 litre of H_(2).

The approximate radius of a H-atom is 0.05 nm, and that of proton is 1.5 xx 10^-15 m. Assuming both hydrogen atom and the proton to be spherical, calculate fraction of the space in an atom of hydrogen that is occupied by the nucleus.