In vacuum an electron of energy `10 keV` hits tungsten target, then emitted radiation will be

The wavelenght of an electron of energy 10 keV will be

The wavelength of an electron of energy 10 keV will be :

An electron beam of energy 10 KeV is incident on metallic foil. If the interatomic distance is 0.55Å . Find the angle of diffraction.

Find the maximum potential difference which may be applied across an X-ray tube with tungsten target without emitting any characteristics K or L X-ray. The energy levels of the tungsten atom with an electron knocked out are as follows. Cell containing vacancy K L M Energy in keV 69.5 11.3 2.3

An electron gun G emits electron of energy 2kev traveling in the positive x -direction.The electrons are required to hit the spot S where GS=0.1 m and the line GS makes an angle of 60^(@) with the x -axis, as shown in the fig.A uniform magnetic field vecB parallel to GS exists in the region outside of electron gun.Find the minimum value of B needed to make the electron hit S .[Take mass of electron =9xx10^(-31)kg ]

In a photoelectric effect experiment, for radiation with frequency v_0 with hv_0 = 8eV, electrons are emitted with energy 2 eV. What is the energy of the electrons emitted for incoming radiation of frequency 1.25 v_0 ?

The wavelength of radiation emitted due to transition of electron from energy level E to zero is equal to lamda . The wavelength of radiation (lamda_(1)) emitted when electronjumpsfrom energy level (3E)/(2) to zero will be :

An electron beam of energy 10keV is passed through a slit of width 1 mm. The observed phenomenon will be: