X-Rays

Physics ⇒ Modern Physics

X-Rays starts at 11 and continues till grade 12. QuestionsToday has an evolving set of questions to continuously challenge students so that their knowledge grows in X-Rays. How you perform is determined by your score and the time you take. When you play a quiz, your answers are evaluated in concept instead of actual words and definitions used.

See sample questions for grade 12

A hospital technician increases the voltage applied to an X-ray tube. What effect does this have on the X-ray spectrum produced?

Calculate the minimum wavelength of X-rays produced when electrons are accelerated through a potential difference of 50 kV. (Use h = 6.63 \times 10^{-34} J·s, c = 3.00 \times 10^{8} m/s, e = 1.60 \times 10^{-19} C)

Describe the difference between hard X-rays and soft X-rays.

Explain why X-rays are dangerous to living tissues.

Explain why X-rays are not deflected by electric or magnetic fields.

If the accelerating voltage in an X-ray tube is increased, what happens to the minimum wavelength of the emitted X-rays?

If the intensity of X-rays is reduced to half after passing through 2 cm of a material, what is the linear absorption coefficient \mu? (Use I = I_0 e^{-\mu x})

Name the two main types of X-rays produced in an X-ray tube.

State Bragg's law for X-ray diffraction.

State one medical application of X-rays.

The intensity of X-rays passing through a material decreases exponentially with thickness. This is described by the equation I = I_0 e^{-\mu x}. What does \mu represent?

What is the main difference between X-rays and gamma rays?

Who discovered X-rays?