Let `m_p` be the mass of a proton , `m_n` the mass of a neutron, `M_1` the mass of a `._10^20Ne` nucleus and `M_2` the mass of a `._20^40Ca` nucleus . Then

Let m_(p) be the mass of a poton , M_(1) the mass of a _(10)^(20) Ne nucleus and M_(2) the mass of a _(20)^(40) Ca nucleus . Then

Let m_(p) be the mass of a poton , M_(1) the mass of a _(10)^(20) Ne nucleus and M_(2) the mass of a _(20)^(40) Ca nucleus . Then

If m_(p) is the mass of proton. m_(n) that of a neutron, M_(1) that of _(10)Ne^(20) nucleus and M_(2) that of _(20)Ca^(40) nucleus, then which of the following relations is//are not true?

If m_p = mass of a portion , m_n = mass of a neutron 'M' = Mass of the nucleus with proton number 'Z' and nucleon number A, then the mass defect, Delta m is given by

M_(p) denotes the mass of the proton and M_(n) denotes mass of a neutron. A given nucleus of binding energy B, contains Z protons and N neutrons. The mass M(N, Z) of the nucleus is given by (where c is the speed of light)

Mp depends the mass of a proton and Mn that of a neutron. A given nucleus, of binding energy B, contains Z protons and N neutrons. The mass M(N,Z) of the nucleus is given by (c is the velocity of light)