The mass of a proton or a neutron is nearly `1.67xx10^(-24)` g . What is its equivalent energy in MeV ?

The- mass of a proton and an electron are 1.67 xx 10^(-24) g and 9.11 xx 10^(-28) respectively. Calculate the ratio of their wavelengths if the proton is, moving with half the velocity of the electron.

If the mass of neutron is 1.7xx10^(-27) kg , then the de Broglie wavelength of neutron of energy 3eV is (h = 6.6xx10^(-34) J.s)

The mass of a proton is 1.00816 u and that of a neutron is 1.00902 u. If the mass of a deuterium nucleus (._1H^2) is 2.01479 u, then what will be the binding energy of this nucleus ? (1 u = 931.2 MeV)

For a nucleus which is nearly spherical in shape r=r_0 A^(1/3) , where r is the radius and A is the mass number and r_0 is a constant of value 1.2xx10^(-15) m. If the mass of the neutrons and protons are equal and equal to 1.67xx10^(-27) kg, prove that density of the nucleus is 2.3xx10^14 times the density of water.

Mass of a proton or a neutron is approximately 939 MeV, but unified atomic mass unit is approximately 931 MeV. What is the reason of this difference ?

The de Broglie wavelength of an electron is 0.4 xx 10^(-10) m when its kinetic energy is 1.0 keV. Its wavelength will be 1.0 xx 10^(-10) m , when its kinetic energy is

The masses of a proton and a neutron are 1.0073 u and 1.0087 u , respectively. If the mass of an O^16 nucleus is 15.990525 u, then find out its binding energy per nuclear .

What is unified atomic mass unit ? Determine the equivalent energy of 1 u in MeV unit.

The de Broglie wavelenght of an electron is 0.4xx10^(-10) m when it kinetic energy is 1.0 kev . Its wavelenght will be 1.0xx10^(-10)m . When its kinetic energy is