What is relation between `lambda_(K alpha), lambda_(K beta) and lambda_(Lalpha)`

lambda_(alpha)/lambda_(beta) in Balmer series is

lambda_(a)//lambda_(beta) in Balmer series is

Let lambda_(alpha'), lambda_(beta),and lambda'_(alpha) denote the wavelength of the X-ray of the K_(alpha), K_(beta), and L_(alpha) lines in the characteristic X-rays for a metal. Then.

An electron, a neutron and an alpha particle have same kinetic energy and their de-Broglie wavelength are lambda_e, lambda_n and lambda_(alpha) respectively. Which statement is correct about their de-Broglie wavelengths?

If lambda_(alpha), lambda_(beta) and lambda_(gamma) are respectively the wavelength of k_(alpha), k_(beta) and k_(gamma) lines of tungsten then

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.

According to de-Broglie hypothesis, the wavelength associated with moving electron of mass 'm' is 'lambda_(e)' . Using mass energy relation and Planck's quantum theory, the wavelength associated with photon is 'lambda_(p)' . If the energy (E) of electron and photonm is same, then relation between lambda_e and 'lambda_(p)' is

An electron, a doubly ionized helium ion (He^(+ +)) and a proton are having the same kinetic energy . The relation between their respectively de-Broglie wavelengths lambda_e , lambda_(He^(+)) + and lambda_p is :