Waves

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    Leah

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    • The amplitude of a wave is the maximum displacement from its undisturbed position.
    • The wavelength of a wave is the distance between two consecutive points on the wave.
    • Frequency of a wave is the number of complete waves passing a point per second.
    • Frequency is measured in Hertz (Hz)
    • In Transverse waves, the oscillations are perpendicular to the energy transfer.
    • In Longitudinal waves, the oscillations are parallel to the direction of energy transfer.
    • Wave Speed in measured in m/s
    • An oscilloscope is used to measure the speed of sound
    • All waves can be transmitted, absorbed or reflected
    • Angle of incidence = Angle of reflection
    • Reflection can be specular or diffuse
    • Specular Reflection occurs when light hits an object at a smooth surface
    • Diffuse Reflection occurs when light hits an object with a rough surface
    • The angle between the incident ray and normal line is called the angle of incidence (i)
    • The angle between the refracted ray and normal line is called the angle of refraction (r)
    • All EM Waves are transverse
    • Electromagnetic Waves can travel through a vacuum
    • EM waves move at the speed of light
    • The Speed of Light= 3x10^8 m/s
    • The Speed of Sound= 330m/s
    • Sound travels faster through solids than liquids, which travel faster than gases.
    • Red Men In Very Unusual X-Ray Goggles = EM Spectrum
    • Radiowaves, Microwaves, Infrared, Visable Light, Ultraviolet, X-rays, Gamma rays
    • Radiowaves are mainly used for communication
    • Microwaves are used to heat food
    • Infrared can be used to increase or monitor temperatures
    • Fibre Optic Cables use Visable Light to transmit Data
    • Visible Light Spectrum: Red, Orange, Yellow, Green, Blue, Indigo, Violet
    • Ultraviolet radiation is used to sterilise food and drink
    • X-Rays and Gamma Rays are used in medicine
    • Radiation Dose is measured in Sieverts (Sv)
    • Radiation risks are different depending on what part of the body it affects
    • A convex lens causes light to converge (becoming closer together)
    • A concave lens curves inwards and diverges light
    • Distance from the centre of the lens to the centre of the principal focus is called the focal length
    • Lenses can produce real and virtual images
    • To describe an image properly you need to say whether it is inverted or upright, how big it is compared to the objects and whether the image is real or virtual
    • Concave lenses always create virtual images
    • Magnifying Glasses use concave lenses to magnify objects.
    • Magnification= image height / object height
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