The potential difference between the cathode and the target in a Collidge tube is 100 kV . The minimum wavelength of the X-rays emitted by the tube is

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

If the potential difference between the anode and cathode of the X - ray tube is increases

In coolidge tube the potential difference between cathode and anticathode is 120 kV. The maximum energy of emitted X-rays will be -

An electron beam in an X-ray tube is acclerated through a potential difference of 50000 volts. These are then made to fall on a tungsten target The shortest wavelength of the X-ray emitted by the tube is

If the X–ray tube is working at 25 kV then the minimum wavelength of X–rays will be

The voltage applied to an X-ray tube is 18 kV. The maximum mass of phton emitted by the X-ray tube will be

The voltage applied to an X-ray tube is 18 kV . The maximum mass of photon emitted by the X-ray tube will be

An X-ray tube is operated at 50 kV. The minimum wavelength produced is

The distance between the cathode (filament) and the target in an X-ray tube is 1.5 m. If the cutoff wavelength is 30 pm, find the electric field between the cathode and the target.