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

If the potential difference applied across a Coolidge tube is increased , then

If the potential difference applied across a Coolidge tube is increased , then

The stopping potential in a photoelectric experiment is linearly related to the inverse of the wavelength (1/lambda) of the light falling on the cathode. The potential difference applied across an X-ray tube is linearly related to the inverse of the cutoff wavelength (1/lambda) of the X-ray emitted. Show that the slopes of the lines in the two cases are equal and find its value.

The potential difference applied to an X-ray tube is 5k V and the current through it is 3.2 mA. Then, the number of electrons striking the target per second is __________.

The potential difference applied to an X-ray tube is V The ratio of the de Broglie wavelength of electron to the minimum wavlength of X-ray is directrly proportional to

The potential difference applied to an X-ray tube is 5 kV and the current through it is 3.2 mA. Then the number of electros striking the target par second is

The voltage applied to the Coolidge X-ray tube is increased by 25%. As a result the short wave limit of continuous X-ray spectrum shifts by Delta lambda . The initial voltage applied to the tube is

If the potential difference of coolidge tube probucing X-ray is increased, then choose the corrent option (s). Here, lambda_0 is cut off wavelength and lambda_(Ka) and lambda_(K beta) are wavelengths of K_(alpha) and K_(beta) characteristic X-rays.

When target potential in the X-ray tube is increased

If the potential difference applied to tube is doubled and the separation between the filament and the target is also doubled, the cutoff wavelength