Electromagnetic (EM) Waves

avatar
Created by
Angelina

Cards (12)

  • Range of EM Waves
    • The relationship between frequency and wavelength of waves across the Electromagnetic spectrum is
    • The higher the frequency, the shorter the wavelength
    • The lower the frequency, the longer the wavelength
    • This means that radio waves have a lower frequency, and a longer wavelength than UV waves
  • Range of EM Waves
    • This can be seen from the wave equation
    v = fλ
    • Where:
    • v = speed of the wave in metres per second (m/s)
    • f = frequency of the wave in hertz (Hz)
    • λ = wavelength of the wave in metres (m)
    • Since all electromagnetic waves travel at the speed of light, c, this is constant
    • Therefore, in the equation, in keeping v constant, if f increases then λ must decrease
  • Relationship between wavelength and frequency
    • The higher the frequency, the higher the energy of electromagnetic radiation
    • Radiation with higher energy is: 
    • Highly ionising
    • Harmful to cells and tissues causing cancer (e.g. UV, X-rays, Gamma rays)
    • Radiation with lower energy is:
    • Useful for communications
    • Less harmful to humans
  • The EM Spectrum
    • The electromagnetic spectrum is arranged in a specific order based on the wavelengths or frequencies
    • The main groupings of the continuous electromagnetic (EM) spectrum are:
    • Radio waves
    • Microwaves
    • Infrared
    • Visible (red, orange, yellow, green, blue, indigo, violet)
    • Ultraviolet
    • X-rays
    • Gamma rays
  • The EM Spectrum
    • This order is shown in the diagram below from longest wavelength (lowest frequency) to shortest wavelength (highest frequency)
  • Visible light is just one small part of a much bigger spectrum: The electromagnetic spectrum
  • Visible Light
    • Visible light is defined as the range of wavelengths which are visible to humans
    • Visible light is the only part of the spectrum detectable by the human eye
    • However, it only takes up 0.0035% of the whole electromagnetic spectrum
    • In the natural world, many animals, such as birds, bees and certain fish, are able to perceive beyond visible light and can see infra-red and UV wavelengths of light
  • Visible Light
    • The different colours of waves correspond to different wavelengths:
    • Red has the longest wavelength (and the lowest frequency and energy)
    • Violet has the shortest wavelength (and the highest frequency and energy)
  • Colours of the visible spectrum with increasing wavelength
    • Wavelength and frequency are inversely proportional, this means that:
    • An increase in wavelength is a decrease in frequency (towards the red end of the spectrum)
    • A decrease in wavelength is an increase in frequency (towards the violet end of the spectrum)
  • The colours of the visible spectrum: red has the longest wavelength; violet has the shortest