In a Coolidge tube, the potential difference used to accelerate the electrons is increased from 24. 8 kV to 49.6 kV . As a result, the difference between the wavelength of `K_(alpha)` -line and minimum wavelength becomes two times. The initial wavelength of the `K_(alpha)` line is [Take `(hc)/(e) = 12 .4 kV Å`]

In a Coolidge tube, the potential difference used to accelerate the electrons is increased from 12.4 kV to 24.8 kV . As a result, the difference between the wavelengths of K_(alpha) -line and minimum wavelength becomes thrice. The wavelength of the K_(alpha) line is 0.25xxKA^(@) . Find the value of K . (hc)/(e)=(12.4 KVA^(@))

In X-ray tube , when the accelerating voltage V is halved, the difference between the wavelength of K_(alpha) line and minimum wavelength of continuous X-ray spectrum

The potential difference between the cathode. And the target electrod in a coolidge tube is 24.75 kV. The minimum wavelength of the emitted X-rays is

The wavelength of K_(alpha) line in copper is 1.54 Å . The ionisation energy of K electron in copper in Joule is

The wavelength of the characteristic X-ray K_(alpha) line emitted from Zine (Z = 30) is 1.415 Å . Find the wavelength of the K_(alpha) line emitted from molybdenum Z = 42) .

The K_(alpha) line from molybdenum (atomic number=42) has a wavelength off .7078Å. The wavelength off K_(alpha) line of zinc (atomic number=30) will be

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

when the voltage applied to an X-ray tube increases from V_(1) = 10 kV to V_(2) = 20 kV , the wavelenght interval between K_(alpha) line and cut-off wavelenght of continuous spectrum increases by a factor of 3 . Atomic number of the metallic target is

In a TV tube the electron are accelerated by a potential difference of 10 kV. Then, their deBroglie wavelength is nearly-

A potential difference of 20 kV is applied across an X-ray tube. The minimum wavelength of X-rays generated (in angstrom) is :-