The emission of penetraing `alpha , beta`particle `(""_(2) ^(4) He ` and `""_(-1)^(0)e` respectively ) along with `gamma`- radiation (hv) was noticed from unstable nuclei . All elements having `Z gt 82` show this phenomenon . The emission was explained in terms of low binding energy (giving `alpha`- decay) high n/p ratio (neutron decay) , `gamma` from a radioactive nuclide is secondary emission
The binding energy of the hydrogen nucleus is :

The emission of penetraing alpha , beta particle (""_(2) ^(4) He and ""_(-1)^(0)e respectively ) along with gamma - radiation (hv) was noticed from unstable nuclei . All elements having Z gt 82 show this phenomenon . The emission was explained in terms of low binding energy (giving alpha - decay) high n/p ratio (neutron decay) , gamma from a radioactive nuclide is secondary emission The emission of penetrating rays from a radioactive species can be shielded by

The emission of penetraing alpha , beta particle (""_(2) ^(4) He and ""_(-1)^(0)e respectively ) along with gamma - radiation (hv) was noticed from unstable nuclei . All elements having Z gt 82 show this phenomenon . The emission was explained in terms of low binding energy (giving alpha - decay) high n/p ratio (neutron decay) , gamma from a radioactive nuclide is secondary emission. An element of group III with At. no. 90 and mass number of 238 undergoes decay of one alpha - particle . The newly formed element belongs to :

beta - decay from a radioactive nuclide leads to :

In gamma ray emission from a nucleus

Calculate the mass of an alpha - particle . Its binding energy is 28.2 MeV.

After the emission of an alpha - particle from the atom ""_(92)^(238) X , the number of neutrons in the atom will be xyz , Y is___