Assertion Wavelength of characteristic X-rays is given by
`(1)/(lambda)prop((1)/(n_(1)^(2))-(1)/(n_(2)^(2)))`
in the transition from `n_(2) to n_(2)` . In the above relation propotionally constant does not deped upon the traget material.
Reason Continuous X-rays are target independent.

Assertio Wavelength of charachteristic X-rays is given by (1)/(lambda)prop((1)/(n_(1)^(2))-(1)/(n_(2)^(2))) in trasnition from n_(2) to n_(1) . In the abvoe relation proportionality constant is series dependent. For different series (K-series, L-series, etc. ) value of this constant will be different. Reason For L-series value of this constant is less than the value for K-series

The emission series of hydrogen atom is given by (1)/(lambda)=R((1)/(n_(1)^(2))-(1)/(n_(2)^(2))) where R is the Rydberg constant. For a transition from n_(2) to n_(1) , the relative change Deltalambda//lambda in the emission wavelength if hydrogen is replaced by deuterium (assume that the mass of proton and neutron are the same and approximately 2000 times larger than that of electrons) is

cos^(-1)((1-x^(2n))/(1+x^(2n)))

For two Bohr orbits n_(1) "and"n_(2) which follow the relationships, (n_(2)^(2)=n_(1)^(2))=21 and (n_(2) - n_(1))=3. If an electron makes transition from n_(2) "to" n_(1) directly then :

The relation between n_(1) and n_(2) , if behaviour of light rays is as shown in figure is

The relation between n_1 and n_2 if the behaviour of light ray is as shown in the figure