If `lambda_(1)` and `lambda_(2)` are the wavelength of characteristic `X` - rays and gamma rays respectively , then the relation between them is

If lambda_(1) and lambda_(2) are the wavelength of the first members of the Lyman and Paschen series, respectively , then lambda_(1) :lambda_(2) is

Wavelength of characteristic X-ray depends on which property of target?

The treatment of cancer with X-rays or gamma -rays is called:

The essential distinction between X - rays and gamma - rays is that

If V_(g) , V_(x) and V_(m) are the speeds of gamma rays, x-rays and microwaves respectively in vacuum then

Why do X-rays and gamma rays induce mutations?

X-rays and gamma -rays of same energies are distinguished by their

The energies of energy levels A, B and C for a given atom are in the sequence E_(A)ltE_(B)ltE_(C) . If the radiations of wavelength lambda_(1), lambda_(2) and lambda_(3) are emitted due to the atomic transitions C to B, B to A and C to A respectively then which of the following relations is correct :-

Let alpha and beta be the values of x obtained form the equation lambda^(2) (x^(2)-x) + 2lambdax +3 =0 and if lambda_(1),lambda_(2) be the two values of lambda for which alpha and beta are connected by the relation alpha/beta + beta/alpha = 4/3 . then find the value of (lambda_(1)^(2))/(lambda_(2)) + (lambda_(2)^(2))/(lambda_(1)) and (lambda_(1)^(2))/lambda_(2)^(2) + (lambda_(2)^(2))/(lambda_(1)^(2))

If lambda_(1), lamda_(2)and lamda_(3) are the wavelengths of the wave giving resonance with the fundamental, first and second overtones respectively of a closed organ pipe Then the ratio of wavelength lambda_(1), lamda_(2)and lamda_(3) is