describe wave motion in terms of amplitude, wavelength, frequency and period

define wavelength and frequency

describe and apply the relationship between wavelength, frequency and wave velocity

apply formulae relating velocity, frequency and wavelength

describe differences between transverse and longitudinal waves

direction of travel and direction of vibration

show how changes, in velocity, frequency and wavelength, in transmission of sound waves from one medium to another, are inter-related

describe the effects of reflection, transmission, and absorption of waves at material interface

examples such as ultrasound and sonar

describe, with examples, processes which convert wave disturbances between sound waves and vibrations in solids

knowledge of a simple structure of the parts of the ear is expected

explain why such processes only work over a limited frequency range, and the relevance of this to human hearing

why hearing (audition) changes due to ageing

describe how ripples on water surfaces are used to model transverse waves whilst sound waves in air are longitudinal waves, and how the speed of each may be measured

describe evidence for the cases of ripples on water surfaces and for sound waves in air that it is the wave that travels and not the water or the air