In the decay series `._(92)U^(238)` to `._(82)Pb^(206)`, how many `alpha`-paritcles and how many `beta^(ɵ)`-particles are emitted?

_86A^222rarr_84B^210 . In this reaction, how many alpha and beta particles are emitted?

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

In the nuclear reaction U_92^238 to Pb_82^206 , the number of alpha and beta particles decayed are:

._(92)^(235)U decays with emission of alpha and beta - particles to form ultimately ._(82)^(207)Pb . How many alpha and beta -particles are emitted per atom of Pb produced?

._(90)Th^(234) disintegrates to give ._(82)Pb^(206)Pb as the final product. How many alpha and beta particles are emitted during this process ?

._(92)U^(238) emits 8 alpha- particles and 6 beta- particles. The n//p ratio in the product nucleus is

Uranium nucleus ""_(92)^(238) U undergoes several disintegrations and ultimately decays to lead nucleus ""_(82)^(206) Pb . How many alpha and beta particles are emitted ?

When the nucleus of .^(238)U_(92) disintegrates to give one nuclues of .^(206)U_(82) , the number of alpha- particles emitted and the number of beta- particles emitted is

IN radioactive series, an inner transition element ._(92)U^(238) loses one alpha -particles and one beta -particle to produce a very unstable daughter nuclei ._(91)Pa^(234) with half life 1.14 min. Find out the displacement in group due to these emissions.

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.