In the Moseley relation, `sqrt(v)=a(Z-b)` which will have the greater value for the constant a for `K_(alpha)` or `K_(beta)` transition?

According to Moseley sqrt(v)= a (z - b) , then v is :

In X-ray experiment K_(alpha),K_(beta) denotes

In Moseley's law sqrt(v)=a(z-b), the volue of the screening constant for K-series and L-series of X-rays are respectively

a. X-ray are electromagnetic waves because these are producted by the deceleration of fast moving electron . b. X-ray are electromagnetic waves because these produce line spectrum. c. the cut-off wavelength depends on the target metarial . d. The intensity of K_(alpha) transition is more probable then of K_(beta) e The transition. e. Frequency of K_(alpha) radiation is more than that of K_(beta) .

The constant 'a' Mosely's law sqrt(v) - a(Z-b) for k_(alpha)X- rays is related to Rydberg constant R as ( 'c' is the speed of light)

If the frequency of K_(alpha), K_(beta) and L_(alpha) , X-ray lines of a substance are v_(K_(alpha)), v_(K_(beta)) , and v_(L_(beta))

Find the centre and radius of the circle formed by all thepoints represented by z=x+iy satisfying the relation |(z-alpha)/(z-beta)|=k(k!=1) where alpha and beta are the constant complex numbers given by alpha=alpha_(1)+i alpha_(2),beta=beta_(1)+i beta_(2)

The graph given below, shows the variation of sqrt(f) vs z for characteristics X- rays. Lines 1,2,3 and 4 shown in the graph corresponds to any one of K_(alpha) , K_(beta) , L_(alpha)" or " L_(alpha) emission, then L_(beta) is represented by ( f = frequency, z = Atomic number)