Find (a) the total number and (b) the total mass of protons in 34 mg of `NH_(3)` at S.T.P. (Assume the mass of proton `=1.6726xx10^(-27)kg`)

(i) Calculate the total number of electrons present in 1 mole of methane . (ii) Find (a) the total number and (b) the total mass of neutrons in 7 mg of .^(14) C . (Assume that mass of a neutron = 1 . 6 75 xx 10 ^(-27) g) (iii) Find (a) the total number of protons and (b) the total mass of protons in 32 mg of NH_3 at STP . ( mass of proton = 1 . 6 72 xx 10^(-27) g) Will the answer change if the temperature and pressure are changed ?

Find (a) the total number and (b) the total mass of neutrons in 7 mg of ._C14 ("Assume that the mass of neutron "= 1.675 xx 10^(-27)kg)

Mass of 112 cm^(3) of NH_(3) gas at S.T.P. is

Total number of atoms present in 34 g of NH_3 is

A proton projected in a magnetic field of 0.020 T travels along a helical path of radius 5.0 cm and pitch 20 cm. Find the components of the velocity of the proton along and perpendicular to the magnetic field. Take the mass of the proton =1.6X10^(-27) kg.

The figure shows a region of length ‘l’ with a uniform magnetic field of 0.3 T in it and a proton entering the region with velocity 4xx10^(5) " ms"^(-1) making an angle 60^(@) with the field. If the proton completes 10 revolution by the time it cross the region shown, ‘l’ is close to (mass of proton = 1.67 xx10^(-27) kg , charge of the proton =1.6 xx10^(-19) C )

Assuming the radius of a nucleus to be equal to R=1.3 A^(1//3)xx10^(-15)m . Where A is its mass number, evaluate the density of nuclei and the number of nucleons per unit volume of the nucleus. Take mass of one nucleon =1.67xx10^(-27)kg

Assume that a neutron breaks into a proton and an electron . The energy reased during this process is (mass of neutron = 1.6725 xx 10^(-27) kg mass of proton = 1.6725 xx 10^(-27) kg mass of electron = 9 xx 10^(-31) kg )

When would the wavelength associated with an electron become equal to that with proton ? (Mass of electron = 9.10 xx 10^(-31) kg , Mass of proton =1.6725 xx 10^(-27)kg )

Calculate the wavelength of de Broglie waves associated with a beam of protons of kinetic energy 5 xx 10^(2) eV. (Mass of each proton =1.67 xx 10^(-27)kg,h=6.62 xx 10^(-34)Js )