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Physics · Waves

Electromagnetic spectrum

CIE 06252 min read

There are 7 types of electromagnetic waves which form the electromagnetic spectrum (EMS).

Radio waves have long wavelengths, low frequency & low energy. Gamma rays have short wavelengths, high frequency & high energy.

All electromagnetic waves travel at the same high speed in a vacuum. The speed of electromagnetic waves in a vacuum is 3.0 × 108m/s and is approximately the same in air.

Uses:

  • Radio waves — radio and television transmissions, astronomy, radio frequency identification (RFID).
  • Microwaves — satellite television, mobile phones (cell phones), microwave ovens.
  • Infrared — electric grills, short range communications (such as remote controllers for televisions), intruder alarms, thermal imaging, optical fibres.
  • Visible light — vision, photography, illumination.
  • Ultraviolet — security marking, detecting fake bank notes, sterilising water.
  • X-rays — medical scanning, security scanners.
  • Gamma rays — sterilising food and medical equipment, detection of cancer and its treatment.

Harmful effects from excessive exposure:

  • Microwaves — internal heating of body cells.
  • Infrared — skin burns.
  • Ultraviolet — damage to surface cells and eyes, leading to skin cancer and eye conditions.
  • X-rays & gamma rays — mutation or damage to cells in the body.

The higher the frequency, the higher the energy of the radiation. Radiation with higher energy is:

  • Highly ionising.
  • Harmful to cells and tissues causing cancer.

Communication with artificial satellites

Communication with artificial satellites is mainly by microwaves:

  • Some satellite phones use low orbit artificial satellites
  • Some satellite phones and direct broadcast satellite television use geostationary satellites

Many important systems of communications rely on electromagnetic radiation including:

  • Mobile phones (cell phones) and wireless internet use microwaves because microwaves can penetrate some walls and only require a short aerial for transmission and reception.
  • Bluetooth uses low energy radio waves or microwaves because they can pass through walls, but the signal gets weakened.
  • Optical fibres (visible light or infrared) are used for cable television and high-speed broadband because glass is transparent to visible light and some infrared; visible light and short wavelength infrared can carry high rates of data.

Sound signals

Sound can be transmitted as a digital or analogue signal:

Digital signalAnalogue signal
Discrete and represent data in binary formatContinuous waveforms

Benefits of digital signalling:

  • Increased rate of transmission of data.
  • Increased range due to accurate signal regeneration.

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