Which material is commonly used as the target material in diagnostic X-ray tubes because of its high atomic number and high melting point?

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

Prepare for the General Core of Radiography Limited Scope Test. Utilize flashcards and multiple choice questions with hints and explanations. Ensure your success today!

Multiple Choice

Which material is commonly used as the target material in diagnostic X-ray tubes because of its high atomic number and high melting point?

Explanation:
When selecting a target material for diagnostic X-ray tubes, you balance X-ray production efficiency with the ability to withstand extreme heat. A high atomic number (Z) increases the likelihood of X-ray production, especially bremsstrahlung and characteristic X-rays, while a very high melting point and good thermal properties let the target survive the intense heat from the electron beam. Tungsten fits both needs: its high Z (74) boosts X-ray yield, and its exceptionally high melting point (about 3422°C) plus solid thermal performance let it endure the heat. That’s why tungsten is the standard target material, often in a rotated or alloyed form to further spread heat. Copper, aluminum, and lead don’t meet both requirements as well—copper and aluminum have lower Z and melt at far lower temperatures, and lead, despite a high Z, cannot tolerate the heat due to its low melting point.

When selecting a target material for diagnostic X-ray tubes, you balance X-ray production efficiency with the ability to withstand extreme heat. A high atomic number (Z) increases the likelihood of X-ray production, especially bremsstrahlung and characteristic X-rays, while a very high melting point and good thermal properties let the target survive the intense heat from the electron beam. Tungsten fits both needs: its high Z (74) boosts X-ray yield, and its exceptionally high melting point (about 3422°C) plus solid thermal performance let it endure the heat. That’s why tungsten is the standard target material, often in a rotated or alloyed form to further spread heat. Copper, aluminum, and lead don’t meet both requirements as well—copper and aluminum have lower Z and melt at far lower temperatures, and lead, despite a high Z, cannot tolerate the heat due to its low melting point.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy