Assume that the mass of a nucleus is approximately given by `M=Am_p`where A is the mass number.Estimate the density of matter in `kgm^-3`inside a nucleus.What is the specific gravity of nuclear matter?

Assume that the mass of a nucleus is approximately given by M = Am_(p) where A is the mass number. Estimate the density of matter in kg//m^3 inside a nucleus. What is the specific gravity of nuclear matter?

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.

Assume that the mass of nucleus is given by M=Amp where A is the mass number and mp=1.00727 u . The density of the matter in the nucleus is about yxx10^(17)kg//m^(3) . Then y is _______ (Take R_(0)=1.5Fm )

The volume of a nucleus is directly proportional to (where A = mass number of the nucleus)

Assume that the nucleus of the fluorine atom is a sphere of radius 5xx10^(-3) cm. What is the density of matter in the nucleus?

The order of magnitude of the density of nuclear matter is 10^(4) kg m^(-3)

The order of magnitude of the density of nuclear matter is 10^(4) kg m^(-3)