An X-ray tube operates at 20 kV. A particular electron loses 5% of its kinetic energy to emit an X-ray photon at the first collision. Find the wavelength corresponding to this photon.

An X-ray tube is operated at 30 kV. If a particular electron loses 10% of its kinetic energy to emit an X-ray photon during the collision. Find the minimum wavelength and maximum frequency associated with this photon.

An X-ray tube is operated at 20 kV. The cut off wavelength is

An X-ray tube operates at 40 kV. Suppose the electron converts 70% of its energy into a photon at each collision. Find the lowest three wavelengths emitted from the tube. Neglect the energy imparted to the atom with which the electron collides.

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

x-rays are produced in an X-ray tube by electrons accelerated through an electric potential difference fo 50.0 kV. An electron makes three collisions in the target coming to rest and loses half its remaining kinetic energy in each of the first two collisions. Determine the wavelength of the resulting photons. (Neglecting the recoil of the heavy target atoms).

A positron and an electron collide and annihilated to emit two gamma photons of same energy. Calculate the wavelengths corresponding to this gamma emission.

The energy of an x-ray photon is 4 kev. Its frequency is nearly

An X-ray tube is operated at a tube potential of 40,000 V. Calculate : (i) Kinetic energy of an electron emitted by the filament when it reaches the target/anode. Wavelengths of all the X-rays emitted by the X-ray tube.

An X-ray tube is operated at 6.6 kV . In the continuous spectrum of the emitted X-rays, which of the following frequency will be missing?

An X-ray tube is operated at 6.6 kV . In the continuous spectrum of the emitted X-rays, which of the following frequency will be missing?