`._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.

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

Consider the following nuclear fission reaction ._(88)Ra^(226) to ._(86)Rn^(222)+._(2)He^(4)+Q In the fission reaction. Kinetic energy of alpha -particle is 4.44 MeV. Find the energy emitted as gamma -radiation in keV in this reaction. m(._(88)Ra^(226))=226.005 amu m(._(86)Rn^(222))=222.000 amu

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

._^(239)Pu._(94) is undergoing alpha-decay according to the equation ._(94)^(239)Pu rarr (._(97)^(235)U) +._2^4 He . The energy released in the process is mostly kinetic energy of the alpha -particle. However, a part of the energy is released as gamma rays. What is the speed of the emiited alpha -particle if the gamma rays radiated out have energy of 0.90 MeV ? Given: Mass of ._(94)^(239)Pu =239.05122 u , mass of (._(97)^(235)U)=235.04299 u and mass of ._1^4He =4.002602 u (1u =931 MeV) .

A nucleus with mass number 220 initially at rest emits an alpha -particle. If the Q-value of the reaction is 5.5 MeV , calculate the kinetic energy of the alpha -particle. (a) 4.4 MeV (b) 5.4 MeV (c) 5.6 MeV (d) 6.5 MeV

A nucleus with mass number 220 initially at rest emits an alpha -particle. If the Q-value of the reaction is 5.5 MeV, calculate the kinetic energy of the alpha -particle. (a) 4.4 MeV (b) 5.4 MeV (c) 5.6 MeV (d) 6.5 MeV

A nucleus with mass number 220 initially at rest emits an alpha -particle. If the Q-value of the reaction is 5.5 MeV , calculate the kinetic energy of the alpha -particle. (a) 4.4 MeV (b) 5.4 MeV (c) 5.6 MeV (d) 6.5 MeV

An isolated hydrogen atom emits a photon of 10.2 eV . (i) Determine the momentum of photon emitted (ii) Calculate the recoil momentum of the atom (iii) Find the kinetic energy of the recoil atom [Mass of proton = m_(p) = 1.67 xx 10^(-27) kg ]

A particle of mass 220 meV//c^2 collides with a hydrogen tom at rest. Soon after the collisionthe particle comes to rest, and the atom recoils and goes to its first excited state. The initial kinetic energy of the particle (in eV) is N/4 . The value of N is : (Given the mass of the hydrogen atom to be 1GeV//c^2 )_____________

Gold ._(79)^(198)Au undergoes beta^(-) decay to an excited state of ._(80)^(198)Hg . If the excited state decays by emission of a gamma -photon with energy 0.412 MeV , the maximum kinetic energy of the electron emitted in the decay is (This maximum occurs when the antineutrino has negligble energy. The recoil enregy of the ._(80)^(198)Hg nucleus can be ignored. The masses of the neutral atoms in their ground states are 197.968255 u for ._(79)^(198)Hg ).