The anode heel effect becomes more pronounced as the target angle decreases.

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Master the General Core of Radiography exam with detailed multiple choice questions and comprehensive study materials. Explore key topics in radiographic procedures, radiation protection, and equipment operation to boost your exam readiness!

Multiple Choice

The anode heel effect becomes more pronounced as the target angle decreases.

The intensity difference across the X-ray beam is caused by the angled anode; photons toward the anode side pass through more of the anode material and are absorbed more, while photons toward the cathode side encounter less material and are less attenuated. When the target angle is decreased (the anode becomes more oblique), the variation in material thickness across the beam becomes larger, so the amount of absorption changes more from one edge of the field to the other. That makes the heel effect more pronounced. In practice, you compensate by placing the thicker part of the anatomy toward the cathode side or by adjusting exposure factors; the effect is about beam intensity distribution, not exposure duration.

The anode heel effect becomes more pronounced as the target angle decreases.

Master the General Core of Radiography exam with detailed multiple choice questions and comprehensive study materials. Explore key topics in radiographic procedures, radiation protection, and equipment operation to boost your exam readiness!

The anode heel effect becomes more pronounced as the target angle decreases.

Get the latest from Examzify