`_83^212Bi` decays as per following equation.
`_83^212Birarr_82^208Ti+_2^4He`
The kinetic energy of `alpha`-particle emitted is 6.802 MeV. Calculate the kinetic energy of Ti recoil atoms.

""_(83)^(212)Bi decays as per following equation. ""_(83)^(212)Birarr""_(82)^(208)TI+""_(2)^(4)He. The kinetic energy of a-particle emitted is 6.802 MeV. Calculate the kinetic energy of TI recoil atoms.

A nucleus of mass 220 amu in the free state decays to emit an alpha -particle . Kinetic energy of the alpha -particle emitted is 5.4 MeV. The recoil energy of the daughter nucleus is

A nucleus of mass 220 amu in the free state decays to emit an alpha -particle . Kinetic energy of the alpha -particle emitted is 5.4 MeV. The recoil energy of the daughter nucleus is

A nucleus of mass 218 amu in Free State decays to emit an alpha -particle. Kinetic energy of the beta- particle emitted is 6.7 MeV . The recoil energy (in MeV) of the daughter nucleus is

A nucleus with mass number 220 initially at rest emits an alpha -particle. If the Q value of the reaction is 5.5MeV, calculate the kinetic energy of the alpha -particle.

A nucleus of mass 218 amu is in free state decays to emit an alpha -particle. Kinetic energy of alpha -particle emitted is 6.7Mev. The recoil energy in (MeV) emitted by the daughter nucleus is

A nucleus with mass number 184 initially at rest emits an alpha particle. If the Q value of the reaction is 5.5 MeV, calculate the kinetic energy of the energy of the alpha particle