An `alpha` particle is bombarded on `.^(14)N`. As a result , `a .^(17)O` nucleus is formed and a particle is emitted. This particle is a

An alpha particle is bombarded on ^14N . As a result, a ^17O nucleus is formed and a particle is emitted. This particle is a

Alpha particles are

The alpha particles are

When a deuterium is bombarded on ._(8)O^(16) nucleus, an alpha -particle is emitted, then the product nucleus is

If U_92^236 nucleus emits one alpha -particle, the remaining nucleus will have

A nucleus ._n X^m emits one alpha and one beta particles. The resulting nucleus is.

A : During radioactive disintegration an alpha -particle and a beta -particle do not emit simultaneously from any nucleus. R : An alpha -particle emits from a nucleus when the N/Z ratio is less than the stability range (where N=number of neutrons and Z=number of protons in a nucleus. )

A stationary radioactive nucleus of mass 210 units disintegrates into an alpha particle of mass 4 units and residual nucleus of mass 206 units. If the kinetic energy of the alpha particle is E, then the kinetic energy of the residual nucleus is

The ionising power of alpha- particle is less compared to alpha- particles but their penetrating power is more. The mass of beta- particle is less than the mass of alpha -particle.

Nucleus ._(92)U^(238) emits alpha -particle (._(2)He^(4)) . alpha- particle has atomic number 2 and mass number 4. At any instant alpha- particle is at distance of 9 xx 10^(-15)m from the centre of nucleus of uranium. What is the force on alpha- particle at this instant? ._(92)U^(238) rarr ._(2)He^(4) + ._(90)Th^(234)