Which of the following interactions contribute to attenuation of x-rays inside the body during radiography?

The contribution of interactions to the attenuation of x-rays in the body is critical for understanding radiographic imaging. The correct choice highlights the two predominant interactions, photoelectric absorption and Compton scattering, which play significant roles in how x-rays behave when they penetrate biological tissues.

Photoelectric absorption occurs when an x-ray photon is completely absorbed by an atom, resulting in the ejection of an inner-shell electron. This interaction is more likely to happen with lower energy x-rays and in materials with a higher atomic number, meaning it plays a vital role in imaging different tissues, especially those that have high atomic number elements like calcium in bones.

Compton scattering involves the scattering of an x-ray photon, which transfers some of its energy to an outer shell electron. This causes the photon to lose energy and change direction, which contributes to the overall attenuation of the x-ray beam. Compton interaction is significant at higher photon energies and is a common interaction in soft tissues.

While pair production, which occurs at very high photon energies (greater than 1.022 MeV), does contribute to attenuation, it is not typically relevant in the context of standard radiography, where the energies used are much lower, making photoelectric and Compton interactions the primary contributors.

Thus