The potential difference applied to an X-ray tube in increase. As a result, in the emmited radiation

The potential difference applied to an X-ray tube is increased. As a result, in the emitted radiation,

The potential difference applied to an X-ray tube is 5 kV and the current through it is 3.2 mA. The number of electrons stricking the target per second is ...... (Take e=1.6xx10^(-19)C)

What is the potential difference between X and Y.

A potential difference of 20kV is applied across an X-ray tube. Find the minimum wavelength of X-ray generated.

Find the potential difference between X and Y in volt is:-

When a potential difference is applied across the ends of a linear metallic conductor

Keeping the resistance constant, the potential difference applied across the ends of a component is halved. How does the current change?

An electron passes between two parallel plate of a capacitor as shown in the diagram. The electron enters the plate at t=0 and it comes out of the plates at time t=T. The electron hits the screen at A, as shown. Now a time varying potential difference V is applied between the plates, as shown in the graph. (Neglect the gravity). The point where the electron now will strike (as compared to point A) will be

Statement-1 If the accelerating potential in an X-ray tube is increased, the wavelength of the characterstic X-rays do not change. because Statement-2 When an electron beam strikes the target in an X-ray tube, part of the kinetic energy is converted into X-ray energy.

The energy of a tungsten atom with a vacancy in L small is 11.3 KaV . Wavelength of K_(alpha) photon for tungsten is 21.3 "pm" . If a potential difference of 62 kV is applied across the X -raystube following characterstic X-rays will be produced.