During X-ray diagnostics, lead aprons made of a thin layer of lead are used in order to protect against the harmful effects of X-ray radiation. Determine, by what factor is the intensity of X-ray radiation reduced after passing the apron of thickness 1 mm. The mass attenuation coefficient for a radiation source with an energy of 140 keV is µm= 2 cm²/g. Density of lead p=11.35 g/cm³.
During X-ray diagnostics, lead aprons made of a thin layer of lead are used in order to protect against the harmful effects of X-ray radiation. Determine, by what factor is the intensity of X-ray radiation reduced after passing the apron of thickness 1 mm. The mass attenuation coefficient for a radiation source with an energy of 140 keV is µm= 2 cm²/g. Density of lead p=11.35 g/cm³.
Related questions
Question
Transcribed Image Text:During X-ray diagnostics, lead aprons made of a thin layer of lead are used in order to protect against the
harmful effects of X-ray radiation. Determine, by what factor is the intensity of X-ray radiation reduced
after passing the apron of thickness 1 mm. The mass attenuation coefficient for a radiation source with an
energy of 140 keV is µm= 2 cm²/g. Density of lead p=11.35 g/cm³.
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 2 steps with 2 images
