Radiology describes the use of x-rays to examine the skeletal system by producing a two dimensional picture of the bony structures in situ. X-rays are electromagnetic energy waves that are produced when electric and magnetic fields are altered and are measured in terms of wavelength, frequency (Hz) and energy (photons). Compared to other sources of energy waves such as infra red, for example, x-rays are high frequency, short wavelength and high energy waves. The high energy permits them to pass through soft tissue structures - with dense bone, they are absorbed or scattered. The 2 dimensional image that is produced diagnostically occurs when x-rays that penetrate through an object collide with the film and the radiation blackens the film. Where dense bony tissue has absorbed or scattered the x-rays, there is less damage to the film and an opaque image is left on the film once developed. | Radiology describes the use of x-rays to examine the skeletal system by producing a two dimensional picture of the bony structures in situ. X-rays are electromagnetic energy waves that are produced when electric and magnetic fields are altered and are measured in terms of wavelength, frequency (Hz) and energy (photons). Compared to other sources of energy waves such as infra red, for example, x-rays are high frequency, short wavelength and high energy waves. The high energy permits them to pass through soft tissue structures - with dense bone, they are absorbed or scattered. The 2 dimensional image that is produced diagnostically occurs when x-rays that penetrate through an object collide with the film and the radiation blackens the film. Where dense bony tissue has absorbed or scattered the x-rays, there is less damage to the film and an opaque image is left on the film once developed. |