Waves and heat

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Amina Matiza

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Waves length and properties
Yr10 > Physics > Waves and heat
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Wave 
A method of transferring energy from one place to another through vibrations
Wave types 
Transverse waves
Longitudinal waves
Transverse waves 
Particles in the medium vibrate perpendicular to the direction of the wave
Longitudinal waves 
Particles in the medium vibrate parallel to the direction of the wave
Transverse waves 
Light
Infrared
Water
Longitudinal waves 
Sound
Ultrasound
Wavelength 
The distance between two consecutive crests or troughs
Amplitude 
The maximum displacement from the rest position
Frequency 
The number of waves produced per second, measured in Hertz (Hz)
Wave equation 
1. v = fλ
2. Wave speed (v) is measured in m/s
3. Frequency (f) is measured in Hz
4. Wavelength (λ) is measured in m
Prefixes
G (x10^9)
M (x10^6)
k (x10^3)
c (x10^-2)
m (x10^-3)
Regions of the electromagnetic spectrum 
Radio
Microwave
Infrared
Visible light
Ultraviolet
X-ray
Gamma
The electromagnetic spectrum is a continuous series of waves of varying wavelengths and frequencies
Increasing wavelength 
Decreasing frequency
Increasing frequency 
Decreasing wavelength
All parts of the electromagnetic spectrum can travel through a vacuum, travel at the speed of 3x10^8mph , all transverse waves
Uses of different regions of the electromagnetic spectrum 
Radio - communications
Microwave - heating, mobile phones
Infrared - remote control
Visible light - photography
Ultraviolet - detecting forgeries, sunbeds
X-ray - detecting broken bones, sterilising medical equipment
Gamma - cancer treatment
Dangers of EM waves  
Infrared-Burns
visible light - potential damage to eyes
ultra-violet- skin cancer
xray and gamma - lead to cancer and damages cells
Gamma rays have a higher fee therefore more waves coming per second therefore they have more energy hence are more dangerous to humans

Waves and heat

Subdecks (1)

Waves length and properties

Cards (58)