In figure find which is `K_(a) and K_(beta)`

In figure find which is K_(a) and L_(alpha')

If the potential difference of coolidge tube probucing X-ray is increased, then choose the corrent option (s). Here, lambda_0 is cut off wavelength and lambda_(Ka) and lambda_(K beta) are wavelengths of K_(alpha) and K_(beta) characteristic X-rays.

Figure shows intensity versus wavelength graph of X-rays coming from coolidge-tube with molybdenum as target element : The two peaks shown in graph correspond to K_(alpha) and K_(beta) X-rays Wavelength of L_(alpha) X-rays from Coolidge tube will be (approximately)

Figure shows intensity versus wavelength graph of X-rays coming from coolidge-tube with molybdenum as target element : The two peaks shown in graph correspond to K_(alpha) and K_(beta) X-rays Voltage applied across Coolidge tube is (approximately)

Figure shows K_(alpha) & K_(beta) X-rays along with continuous X-ray. Find the energy of L_(alpha) X-ray. (Use hc = 12420 evÅ)

In the figure a capacitor is filled with dielectrics K_(1) , K_(2) and K_(3) . The resultant capacitance is

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))

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?

Four identical capacitors are connected with a battery of voltage V and two switches k_(1) and k_(2) as shown in the figure below. Initially, k_(1) is closed, now if k_(2) is also closed, find the heat loss.

Obtain a relation between the frequencies of K_(alpha), K_(beta) and L_(alpha) line for a target metrial .