What are examples of X ray waves?

X-rays are commonly produced by accelerating (or decelerating) charged particles; examples include a beam of electrons striking a metal plate in an X-ray tube and a circulating beam of electrons in a synchrotron particle accelerator or storage ring.

How are X ray waves used in everyday life?

The most familiar use of x-rays is checking for fractures (broken bones), but x-rays are also used in other ways. For example, chest x-rays can spot pneumonia. Mammograms use x-rays to look for breast cancer. When you have an x-ray, you may wear a lead apron to protect certain parts of your body.

What are 3 uses of x-rays waves?

Here are the top 3 uses of x-rays.
  • Fractured Bones. Patients who sustain a bone injury are usually asked to undergo x-rays. …
  • Mammography. …
  • Urinary Tract Conditions. …
  • Digital X-Ray in Palm Beach County, Florida.

What are 5 uses of x-rays?

Uses of X Rays in Physics
  • Restoration.
  • Medical Science.
  • Security.
  • Astronomy.
  • Industry.

What are 3 examples of gamma rays?

What are three examples of gamma rays? Examples of gamma rays are found in radioactive decay of naturally-occuring radionuclide, lightning (terrestrial gamma-ray flashes), and nuclear explosions. Gamma rays are also found in black holes, supernova remnants, and gamma-ray bursts.

Where can X-rays be used?

X-rays can be used to examine most areas of the body. They’re mainly used to look at the bones and joints, although they’re sometimes used to detect problems affecting soft tissue, such as internal organs.

Where are X-rays found?

X-rays and gamma rays can come from natural sources, such as radon gas, radioactive elements in the earth, and cosmic rays that hit the earth from outer space. But this type of radiation can also be man-made.

How are X-rays used in modern technology?

They are used on such products as aircraft and rocket parts and structures, canned and packaged foods, electronics, semiconductors and microchips, thermal insulations, and automobile tires. Material processing technologies use X-ray systems to automatically control the density or thickness of layers of substances.