from the relation `R=R_0A^(1//3)`, where `R_0` is a constant and A is the mass number of a nucleus, show that the nuclear matter density is nearly constant (i.e., independent of A ).

from the relation `R=R_0A^(1//3)`, where `R_0` is a constant and A is

1.	from the relation `R=R_0A^(1//3)`, where `R_0` is a constant and A is the mass number of a nucleus, show that the nuclear matter density is nearly constant (i.e., independent of A ).
Answer» we have the expression for nuclear radius as: `R= R_(@)A^(1)//^(3)` where , A = mass number of the nucleus Nuclea matter density ` rho =("mass of the nucleus")/("Volume of the nucleus ")` Let mBe average mass of the nucleus . Hence ,mass of the nucleus -mA `therefore rho =(mA)/((4)/(3)piR^(3))=9(3mA)/(4pi (r_(@)A^((1)/(3)))^(3))=(3mA )/(4piR_(@)^(3)A) =(3m)/(4piR_(0)^(3))` Hence , the nuclear matter density is independent of A it Is neraly constant .

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