Find the minimum kinetic energy of an `alpha`-particle to cause the reaction `^14N(alpha,p)^17O`. The masses of `^14N`, `^4He`, `^1H` and `^17O` are respectively 14.00307u, 4.00260u, 1.00783u and 16.99913u.

|Q| value of the reaction, N^(4)+alpha rarrO^(17)+p [the masses of N^(14),He^(4),p,O^(17) are respectively 14.00374 u, 4.0026 u,1.00783 u and 16.99913 u is x//5MeV . Value of x is nearly [1 u=931.5 MeV]

Find the Q value of the reaction N^(14)+alpha rarr O^(17) +P The mass of are, respectivley , 14.00307 u, 4.00260 u , and 16.99913u . Find the total kinetic energy of the products if the striking alpha partilcles has the minimum kinetic energy required to intiate the reaction .

Find the Q value of the reaction N^(14)+alpha rarr O^(17) +P The mass of are, respectivley , 14.00307 u, 4.00260 u , and 16.99913u . Find the total kinetic energy of the products if the striking alpha partilcles has the minimum kinetic energy required to intiate the reaction .

The binding energy of alpha -particle is ( if m_p=1.00785u , m_n=1.00866u and m_alpha=4.00274u )

The binding energy of alpha -particle is ( if m_p=1.00785u , m_n=1.00866u and m_alpha=4.00274u )

Find the kinetic energy of the alpha - particle emitted in the decay ^238 Pu rarr ^234 U + alpha . The atomic masses needed are as following: ^238 Pu 238.04955 u ^234 U 234.04095 u ^4 He 4.002603 u . Neglect any recoil of the residual nucleus.

Find the kinetic energy of the alpha - particle emitted in the decay ^238 Pu rarr ^234 U + alpha . The atomic masses needed are as following: ^238 Pu 238.04955 u ^234 U 234.04095 u ^4 He 4.002603 u . Neglect any recoil of the residual nucleus.

Find the kinetic energy of the alpha - particle emitted in the decay ^238 Pu rarr ^234 U + alpha . The atomic masses needed are as following: ^238 Pu 238.04955 u ^234 U 234.04095 u ^4 He 4.002603 u . Neglect any recoil of the residual nucleus.