If in a nuclear fusion process the masses of the fusing nuclei be `m_(1)` and `m_(2)` and the mass of the resuktant nucleus be `m_(3)`, then

If in a nuclear fusion process the masses of the fusing nuclei be m_(1) and m_(2) and the mass of the resultant nucleus be m_(3) , then

If M be the mass of the nucleus and m be the sum of the individual masses of the nucleons forming the nucleus, then :

In a fusion process a proton and neutron combine to give a deuterium nucleus. If m_(o) and m_(p) be the mass of neutron and proton respectively the mass of deuterium nucleus is

If two nuclei of mass number A_(1) and A_(2) fuse together to form a nucleus of mass number A, then

A heavy nucleus of mass M_(x) decay into two nuclei (Y and Z) of masses M_(y) and M_(z) . The Q value of the reaction is

The centre of masses of three particles of mass m_(1) = m_(2)=m_3 = 1 kg at the corners of an equilateral triangle of side 1 m will be -

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

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