There are two radio nuclei A and B is a `alpha` -emitter and B is `beta`-emitter. Their disintegration constant are in the ratio of 1:2 . What should be the number of atoms ratio of A and B at time t=0 , so that initially probability of getting of `alpha` and `beta`-particles are same.

The perpendicular from the origin to the line joining the points A(a cos alpha, a sin alpha) and B(a sin beta, a cos beta) divides AB in the ratio

Two bodies are projected from the same point with equal speeds in such directions that they both strike the same point on a plane whose inclination is beta . If alpha the angle of projection of the first body with the horizontal , show that the ratio of their time of flights is (sin (alpha - beta))/(cos alpha)

If a,b are two unit perpendicular vectors and c is a unit vector which is inclined an angle 0 with a and b. if c = alpha a + beta b + gamma (a xx b) and gamma^(2) =

Let alpha be root of x^(2)+x+1=0 and suppose that a fair die is thrown 3 times if a,b and c are the numbers shown on the die then the probability that alpha^(a)+alpha^(b)+alpha^(c ) =0 is