Calculate the maximum kinetic energy of the beta particle emitted in the following decay scheme:
`N^12 rarr C^12 + e^(+)+v`
`C^12 rarr C^12 + gamma(4.43 MeV).`
The atomic mass of `N^12` is `12.018612 u.`

Calculate the maximum kinetic energy of the bera particle emitted in the following decay scheme: ^12N rarr 12C **+e^(+)+v ^12C rarr ^12C + gamma(4.43 MeV). The atomic mass of 12N is 12.018612 u.

Calculate the kinetic energy of an alpha -particle which has a wavelength of 12pm

Calculate the kinetic energy of an alpha - particle which has a wavelength of 12 pm.

Calculate the mass (in grams) of a single C-12 atom.

Complete the following decay schemes. (a) _88^226Ra rarr alpha + (b) _8^19O rarr _19^9F + (c ) _25^13Al rarr _12^25Mg + .

Calculate the number of molecules in each of the following : 124 g of phosphorus Given atomic masses : P = 31 u, C = 12 u, O = 16 u

Calculate the kinetic energy of beta -particles and the radiation frequencies corresponding to the gamma -decays shown in figure. Given, mass of ._12Mg^27 atom =26.991425 amu and mass of ._13Al^27 atom = 26.990080 amu

Calculate the energy released when three alpha particles combine to form a ^12 C nucleus. The atomic mass of _2^4 He is 4.002603 u .

Which of the following is true ? A: - 12 + (-15) B: -16 - (12) C: -14 - (-12)

Show that the energy released when three alpha particles fuse to form ""^(12)C is 7.27 MeV. The atomic mass of ""^(4)He is 4.0026u and that of ""^(12)C is 12.0000u.