In the given radioactive disintegration series,
`._90^(232)Th to _(2)^(208)Pb`
Calculate value of `(n+2)`.
Where value of n is number of isobars formed in this series, suppose there is successive emission of `beta-`particles.

In the given radioactive disintegration series ._(92)^(235)U rarr_(82)^(207)Pb Calculate difference between number of alpha and number of beta particles emitted in this series.

The end product of (4n + 2) disintegration series is

Find the sum of the series to n terms whose n ^(th) term is 3n +2.

The sum of n terms of an A.P. series is (n^(2) + 2n) for all values of n. Find the first 3 terms of the series:

One of naturally occurring radioactive decay series begins with _(90)^(232)Th and ends with a stable _(82)^(208)Pb . How many beta (beta) decays are there in this series? Show by calculate.

In the final Uranium radioactive series the initial nucleus is U_(92)^(238) and the final nucleus is Pb_(82)^(206) . When Uranium neucleus decays to lead , the number of a - particle is …….. And the number of beta - particles emited is ……

Find the sum to n terms of the series, whose n^(t h) terms is given by : n^2+2^n

Find the sum to n terms of the series, whose n^(t h) terms is given by : n^2+2^n

._(90)Th^(232) to ._(82)Pb^(208) . The number of alpha and beta-"particles" emitted during the above reaction is

The number of alpha and beta particles emitted in the nucleur disintegration series _90^228 Th to _83^212 Bi are: