There are two radioactive nuclei A and B A is an alpha emitter and B a beta emitter. Their disintegration constants are in the ratio of atoms of A and B at any time t so that probilities of getting alpha and beta particles are same at that instant?

There are two radio nuceli A and B. A is an alpha emitter and B a beta emitter. Their disintegration constant are in the ratio of 1:2 What should be the ratio of number of atoms of A and B at any time t so that probabilities of getting alpha and beta particles are same at that instant?

If alpha and beta are 2 distinct roots of equation a cos theta + b sin theta = C then cos( alpha + beta ) =

The coordinates of a moving particle at any time t are given by x = alpha t^(3) and y = beta t^(3) . The speed of the particle at time t is given by

The relation between time t and displacement x is t = alpha x^2 + beta x, where alpha and beta are constants. The retardation is

A radioactive sample is alpha- emitter with half life 138.6 days is observed by a student to have 2000 disintegration/sec. The number of radioactive nuclei for given activity are.

Two particles are projected at the same instant from the same point at inclinations alpha and beta to the horizontal. If they simultaneously hit the top and bottom of a vertical pole subtending angle theta at the point of projection , find (tan alpha - tan beta) .

Two redioactive nuclei A and B have disintegration constants lamda_(A)andlamda_(B) and initially N_(A)andN_(B) number of nuclei of them are taken, then the time after which their undisintegrated nuclei are same is

Two redioactive nuclei A and B have disintegration constants lamda_(A)andlamda_(B) and initially N_(A)andN_(B) number of nuclei of them are taken, then the time after which their undisintegrated nuclei are same is

Two radioactive materials A and B have decay constants 10lambda and lambda , respectively. If initially they have the same number of nuclei, then the ratio of the number of nuclei of A of that of B will be 1//e after a time :

Arrange in increasing order of: a. The mass of alpha, beta , and gamma b. The penetration power of alpha, beta , and gamma