In the nuclear decay given below
`._Z^A X rarr ._(Z+1).^A Y rarr ._(Z-1)^(A - 4) B^** rarr ._(Z-1)^(A-4) B`,
the particle emitted in the sequence are

In the given reaction ._z X^A rarr ._(z+1)Y^A rarr ._(z-1) K^(A - 4) rarr ._(z-1) K^(A - 4) Radioactive radiations are emitted in the sequence.

In the radioactive decay {:(._(z)X^(A) rarr _(Z+1)Y^(A)rarr_(Z-1)Z^(A-4) rarr_(Z-1)Z^(A-4)),(" high energy" " low energy"):} the sequence of the radiation emitted is :

In the radioacitve decay ._(Z)X^(A) rarr ._(z + 1)Y^(A) rarr ._(z - 1)^(A - 4) rarr ._(z - 1)Z^(*A - 4) The sequence of emission is a. alpha, beta, gamma b. gamma, alpha, beta c. beta, alpha, gamma c. beta, gamma, alpha

A nuclear reaction given by 1_Z X^A rarr .(Z+1) Y^A + ._(-1)e^0 + vecp represents.

One mole of X present in a closed vessel undergoes decays as: ._(Z)X^(A) rarr ._(Z - 2)Y^(A - 4) + (._(2)He^(4)) What will be the volume of helium gas collected as SATP and STP (1 bar pressures, 273 K temperature) after 20 days (t_(1//2) "of" A = 10 days)?

In the nuclear reaction ._92 U^238 rarr ._z Th^A + ._2He^4 , the values of A and Z are.

In the disintegration series ._(92)^(238)U overset rarr (alpha) X overset rarr (beta^(-))._Z^(A)Y the values of Z and A , respectively, will be

Two radio active nuclei X and Y decay into stable nucleus Z X to Z + 2alpha+ beta^- Y to Z + alpha + 2 beta^+ if Z_1 and Z_2 are atomic numbers of X and Y then

In the decay sequence, {:(238),(92):}Uoverset(-x_(1))rarr{:(234),(90):}"Th"overset(-x_(2))rarr{:(234),(91):}"Pa"overset(-x_(3))rarr234_(Z) overset(-x_(4))rarr{:(230),(90):} x_(1),x_(2),x_(3) and x_(4) are particles/radiation emitted by the respective isotopes. The correct option(s) is (are):

Find the components along the x,y,z axes of the angular momentum overset rarr(L) of a particle, whose position vector is overset rarr(r ) with components x,y,z and momentum is overset rarr(p) with components p_(x), p_(y) and p_(z) . Show that if the particle moves only in the x-y plane, the angular momentum has only a z-component.