The mass defect for the nucleus of helium is `0.0303` a,m,u,. What is the binding energy per nucleon for helium in MeV?

Match the statements given in column-I with their corresponding possible results in column-II. {:(,"Column-I",,"Column-II",),((P)," If photons of ultraviolet light of energy 12 eV are incident on a metal surface of work function of 4 eV, then the stopping potential (in eV) will be ",,(1),8),((Q),"The ratio of wavelengths of "K_(alpha)" lines of two elements is "(85/81)^(2)" Number of elements having atomic number between these elements will be ",,(2),3),((R)," If 20 gm of a radioactive substance due to radioactive decay reduces to 10 gm in 4 minutes, then in what time (in minutes) 80 gm of the same substance will reduce to 20 gm",,(3),8),((S),"The mass defect for the nucleus of helium is 0.0302a.m.u. The binding energy per nucleon for helium in MeV is approximately" (1am u = 930 MeV//c^2),,(4),7):}

The value of binding energy per nucleon is

The binding energy per nucleon is maximum in the case of.

The binding energy per nucleon is maximum in the case of.

Average binding energy per nucleon over a wide range is

Find the binding energy of the nucleus of lighium isotope ._(3)Li^(7) and hence find the binding energy per nucleon in it.

When the number of nucleons in a nuclues increases the binding energy per nucleon

A nuclear of mass M +deltam is at rest and decay into two daughter nuclei of equal mass (M)/(2) each speed is c The binding energy per nucleon for the nucleus is E_(1) and that for the daugther nuclei is E_(2) Then

As the mass number A increases, the binding energy per nucleon in a nucleus.

What is the significance of binding energy per nucleon of a nucleus of a radioactive element ?