The variation of wavelength `lambda` of the `K_(alpha)` line with atomic number `Z` of the target is shown by the following curve of

In X-ray spectrum wavelength lamda of line K_(alpha) depends on atomic number Z as

What is the approximate ratio of wavelength of radiation K_(alpha_(1)) and K_(alpha_(2)) when atomic number of first target is Z_(1) = 64 and atomic no of second target is Z_(2)=80 -

The ratio of wavelength of K_alpha line of an element with atomic number 61 to wavelength of K_alpha line of an element with atomic number 21 is

The wavelength of the K_(alpha) line for an element of atomic number 57 is lambda . What is the wavelength of the K_(alpha) line for the element of atomic number29 ?

Energy of electron varies with atomic number as the following curve/line:

In coolidge tube, if f and lambda represent the frequency and wavelength of K_(alpha) -line for a metal of atomic number Z, then identify the statement which represents a straight line

The wavelength lambda of the K_(a) line of characteristic X - ray spectra varies with atomic number approximately

For a given element the wavelength of the K_alpha - line is 0.71 nm and of the K_beta - line it is 0.63 nm. Use this information to find wavelength of the L_alpha line.

Calculate the wavelength of K_(alpha) line for the target made of tungsten (Z = 74) .