In a Coolidge tube
In a Coolidge tube, the potential difference used to accelerate the electrons is increased from 12.4 kV to 24.8 kV. As a result, the difference between the wavelengths of K_(alpha)-line and minimum wavelength increases to thrice its former value. The wavelength of the K_(alpha) line is (hc)/(e)=(12.4 KVA)
04
Sep
In a Coolidge tube, the potential difference used to accelerate the electrons is increased from 12.4 kV to 24.8 kV. As a result, the difference between the wavelengths of K_(alpha)-line and minimum wavelength increases to thrice its former value. The wavelength of the K_(alpha) line is (hc)/(e)=(12.4 KVA) In a Coolidge tube the difference between [...]
Tags:
In a Coolidge tube ,
the difference between the wavelengths of K_(alpha)-line and minimum wavelength increases to thrice its former value. The wavelength of the K_(alpha) line is (hc)/(e)=(12.4 KVA) ,
the potential difference used to accelerate the electrons is increased from 12.4 kV to 24.8 kV. As a result ,
In a Coolidge tube, the potential difference across the tube is 20 kV, and 10 mA current flows through the voltage supply. Only 0.5 % of the energy carried by the electrons striking the target is converted into X-rays. The X-ray beam carries a power of
17
Jun
In a Coolidge tube, the potential difference across the tube is 20 kV, and 10 mA current flows through the voltage supply. Only 0.5 % of the energy carried by the electrons striking the target is converted into X-rays. The X-ray beam carries a power of and 10 mA current flows through the voltage supply. [...]