CORRECT WELL DETAILED ANSWERS|LATEST
X-rays are produced by - ANSWER Characteristic and bremsstrahlung interactions
When filament electrons enter the anode target, they mostly interact with -
ANSWER Outer shell electrons of tungsten atoms
When a filament electron knocks out a K shell electron from the tungsten atom, it leads to -
ANSWER A characteristic x-ray photon
The energy of the characteristics x-ray photon depends on - ANSWER All of the Above
(The binding energy of the binding shell electron, the energy level of the filament electron,
and the shell of the electron that is dropping into the vacancy)
A filament electron removes a K shell electron and an M shell electron fills the vacancy. The
K shell binding energy is 69.5 keV and the M shell binding energy is 2.8 keV. What is the
energy of the K-characteristic photon produced? - ANSWER 66.7 keV
Bremsstrahlung means - ANSWER Breaking radiation
The energy of the brems photon depends on - ANSWER All answer choices are correct
(The energy of the filament electron as it leaves the tungsten atom, the strength of the
attraction between the electron and the nucleus, the original energy of the filament
electron)
The majority of the x-ray photons produced are - ANSWER Brems photons
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X-rays are produced by - ANSWER Characteristic and bremsstrahlung interactions
When filament electrons enter the anode target, they mostly interact with -
ANSWER Outer shell electrons of tungsten atoms
When a filament electron knocks out a K shell electron from the tungsten atom, it leads to -
ANSWER A characteristic x-ray photon
The energy of the characteristics x-ray photon depends on - ANSWER All of the Above
(The binding energy of the binding shell electron, the energy level of the filament electron,
and the shell of the electron that is dropping into the vacancy)
A filament electron removes a K shell electron and an M shell electron fills the vacancy. The
K shell binding energy is 69.5 keV and the M shell binding energy is 2.8 keV. What is the
energy of the K-characteristic photon produced? - ANSWER 66.7 keV
Bremsstrahlung means - ANSWER Breaking radiation
The energy of the brems photon depends on - ANSWER All answer choices are correct
(The energy of the filament electron as it leaves the tungsten atom, the strength of the
attraction between the electron and the nucleus, the original energy of the filament
electron)
The majority of the x-ray photons produced are - ANSWER Brems photons
1
