The radius of a nucleus ofa mass number A is given by `R=R_(0)A^(1//3)`, where `R_(0)=1.3xx10^(-15)m`. Calculate the electrostatic potential energy between two equal nuclei produced in the fission of `._(92)^(238)U` at the moment of their fission

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

The radius of the nucleus of the atom with A=216 is (take R_(0)=1.3 fm)

The mutual electrostatic potential energy between two protons which are at a distance of 9 xx 10^(-15)m , in ._(92)U^(235) nucleus is

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 desity of a nucleus in which mass of each nucleon is 1.67xx10^(-27)kg and R_(0)=1.4xx10^(-15)m is

Atomic nucleus is central core of every atom in which the whole of positive charge and almost entire mass of atom is concentrated. It is a tiny sphere of a radius R is given by R=R_(o)A^(1//3) , where R_(o)=1.4xx10^(-15)m , a constant and A the mass number of nucleus On increasing the value of 'A' the density of the nucleus

the radius of ""_(29)Cu^(64) nucleus in fermi is (given ,r_(0) 1.2xx10^(-15) M)

Two protons in a U^(238) nucleus are 6.0xx10^(-15)m apart. What is their mutual electric potential energy?

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