What is the primary component of an X-ray tube that emits a focused beam of electrons?

What material is often used as the target metal in the anode of an X-ray tube?

What happens to the electrons when they strike the tungsten anode in an X-ray tube?

If the accelerating potential in an X-ray tube is doubled, what happens to the wavelength of the emitted X-rays?

What are the two main processes responsible for the attenuation of X-rays as they pass through matter?

What does CAT stand for in the context of medical imaging?

What is the purpose of using a rotating X-ray beam and detectors in a CAT scan?

What is the term for the reduction in X-ray intensity as they pass through matter?

What is the term for the electromagnetic radiation produced when high-energy electrons strike the tungsten anode in an X-ray tube?

What is the term for the detailed cross-sectional views of soft tissues produced by a CAT scan?

Describe the two main processes that lead to the generation of X-rays when high-energy electrons bombard the tungsten anode in an X-ray tube.

Explain how the intensity of the X-ray beam can be increased in an X-ray tube.

Describe how CAT scans use X-rays to produce detailed images of internal body structures.

An X-ray tube with an accelerating potential of 150 kV is used to produce X-rays. Calculate the maximum energy of these X-rays.

Calculate the new intensity of an X-ray beam after passing through 2 cm of a material, if the initial intensity was 500 W m^-2 and the attenuation coefficient of the material is 0.1 cm^-1.