The radius of nucleus is `r=r_(0)A^(1//3)`, where `A` is mass number. The dimensions of `r_(0)` is

The radius of nucleus is R=R_(0)A^(1//3) where A is the mass number of the atom. What are the dimensions of R_(0) ?

Which of the following is corect regarding nucleus? (i) The radius of nucleus R = R_(0)A^(1//3) where R_(0) = 1.1xx10^(-15)m, A = mass number (ii) the density of nucleus = rho=(M)/(V) = (mA)/((4)/(3)piR^(3)) m: mass of proton or neutron (iii) Nucleus stability depends on neutron-proton ratio N//Z N//Z ~= .6 for heaviest stable nucleus (iv) The total angular momentum of the nucleus is the resultant of all the spin and orbital angular momenta of the individual nucleon (nucleon means either proton or neutron). The total angular momentum of a nucleus is called the nuclear spin of that nucleus.

R=R_(0)A^(1//3) , where R_(0) has the value:

Assume that trhe mass of the nucleus is given by M= A m_(p) , where A in the mass number and radius of a nuclear r= r_(0)A^(1//3) , where r_(0) =1.2 f. Estimate the density of the nuclear matter in kg m^(-3) . Given m_(p)=1.67xx10^(-27) kg.

The radius of a nucleus is given by r_(0) A^(1//3) where r_(0) = 1.3xx 10^(-15) m and A is the mass number of the nucleus, the Lead nucleus has A = 206. the electrostatic force between two protons in this nucleus is approximately

The radius of nucleus: R=R_0A^(1/3) ( R_0 =constant, A=mass No.). Taking the relation, show that the nuclear density does not depend on mass number A.

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.

Size of nucleus was obtained by the equation r=R_(0)A^(1//3) , Where r is the radius of nucleus of mass no A. and R_(0) is a constant whose valie is equal to 1.5xx10^(-15) metre. (Given : 1 amu = 1.66xx10^(-24)g ) What is the density of a nucleus of mass number A ?