The wave model can be used to explain how current technologies transfer information. Describe the energy transformations required in one of the following: * Mobile Telephone Mobile telephones have built in microphones that changes sound waves bib Describe waves as a transfer of energy disturbance that may occur in one, two or three dimensions, depending on the nature of the wave and the medium Identify that mechanical waves require a medium for propagation while electromagnetic waves do not Mechanical: Requires a medium for propagation (ii.
Travel through) Egg. Sound Waves, Water Waves, Waves in a string Electromagnetic: Do not require a medium for propagation (e. ME Waves can pass through a vacuum) Egg. Light, Infrared, XIV, X rays, Gamma Rays, Radio waves, Microwaves Define and apply the following terms of the wave model: Medium, displacement, amplitude, period, compression, rarefaction, crest, trough, transverse waves, longitudinal waves, frequency, wavelength & velocity. Describe the relationship between particle motion and the direction of energy propagation in transverse and longitudinal waves
Quantify the relationship between velocity, frequency and wavelength Where v = velocity, f = frequency & = wavelength (lambda) Features of a wave model can be used to account for the properties of sound. Identify that sound waves are vibrations or oscillations of particles in a medium Relate compressions and rarefactions of sound waves to the crests and troughs of transverse waves used to represent them Explain qualitatively that pitch is related to frequency and volume to amplitude of sound waves Describe the principle of superposition and compare the resulting waves to the original waves in sound