Write one balanced equation each to show:
Emission of `beta^(-)` (i.e., a negative beta particle)

During a negative beta decay,

During a negative beta decay,

Emission of beta -particle is equivatent to:

Write a balanced nuclear reaction showing emission of a beta -particles by ""_(90)^(234)Th . (Symbol of daughter nucleus formed in the process is Pa.)

Write a balanced equation for the reaction of N^(14) with alpha- particles.

Write balanced nuclear equations for the following: beta -emission from magnesium- 28

A radio nuclide with half life T = 69.31 second emits beta -particles of average kinetic energy E = 11.25eV . At an instant concentration of beta -particles at distance, r = 2m from nuclide is n = 3 xx 10^(13) per m^(3) . (i) Calculate number of nuclei in the nuclide at that instant. (ii) If a small circular plate is placed at distance r from nuclide such that beta -particles strike the plate normally and come to rest, calculate pressure experienced by the plate due to collision of beta -particle. (Mass of beta -particle = 9 xx 10^(-31)kg ) (log_(e) 2 = 0.693)

(A) The position of an element in periodic table after emission of one alpha and two beta -partilce remians unchanged. (R ) Emission of one alpha and two beta particles gives isotope of the parent element which acquires same position in the periodic table.

When the radioactive isotope _(88)Ra^(226) decays in a series by emission of three aplha (alpha) and a beta (beta) particle, the isotope X which remains undecay is

Give one example each of (a)alpha- emission, (b)beta^(c-)- emission, and (c)K- capture. Write an equation for these nuclear changes.