An x-ray beam with an average photon energy of 40 keV (assume it monocrhomatic) is directed into a patient. The beam uniformly exposes a 5 cm x 5 cm field on the surface of the patient. The beam passes through a 5 cm of soft tissue (p= 10.6g/cm³) which surrounds a 2 mm titanium pin (4.5g/cm³). the beam is on for 0.1 seconds, and a total energy of 1 J of x-ray energy enters the patient (a) Calculate the intensity of the beam and the energy fluence (b) What fraction of photons will be absorbed as the beam passes through a region containing only 5 cm of soft tissue (no titanium)? (c) What fraction of photons will be absorbed as the beam passes through a region containing only 4.8 cm of soft tissue and 0.2 cm of titanium?

An x-ray beam with an average photon energy of 40 keV (assume it monocrhomatic) is directed into a patient. The beam uniformly exposes a 5 cm x 5 cm field on the surface of the patient. The beam passes through a 5 cm of soft tissue (p= 10.6g/cm³) which surrounds a 2 mm titanium pin (4.5g/cm³). the beam is on for 0.1 seconds, and a total energy of 1 J of x-ray energy enters the patient (a) Calculate the intensity of the beam and the energy fluence (b) What fraction of photons will be absorbed as the beam passes through a region containing only 5 cm of soft tissue (no titanium)? (c) What fraction of photons will be absorbed as the beam passes through a region containing only 4.8 cm of soft tissue and 0.2 cm of titanium?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Balmer Series

The spectrum of frequency observed when electromagnetic radiation is emitted from an atom when it goes from higher energy state to lower state, is known as emission spectrum. This transition occurs when an excited electron moves from higher to lower state. It has many possible electron transitions and each transition has a specific energy difference.

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Question

Please solve this

An x-ray beam with an average photon energy of 40 keV (assume it monocrhomatic)
is directed into a patient. The beam uniformly exposes a 5 cm × 5 cm field on the
surface of the patient. The beam passes through a 5 cm of soft tissue (p 10.6g/cm³)
which surrounds a 2 mm titanium pin (4.5g/cm³). the beam is on for 0.1 seconds,
and a total energy of 1 J of x-ray energy enters the patient
=
(a) Calculate the intensity of the beam and the energy fluence
(b) What fraction of photons will be absorbed as the beam passes through a region
containing only 5 cm of soft tissue (no titanium)?
(c) What fraction of photons will be absorbed as the beam passes through a region
containing only 4.8 cm of soft tissue and 0.2 cm of titanium?

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