Sound waves are longitudinal waves and can be reflected, refracted and diffracted like all waves. They are mechanical vibrations of particles that can be detected by the human ear.
When a sound wave is reflected we call it an echo. Echoes of ultrasound are used by bats and sonar, to detect the position of things.
A sound wave can be represented as a sine curve; by altering its amplitude and frequency, we can change the sound.
If the amplitude is increased, the sound gets lounder - so a higher volume. If the frequency is increased, you get a higher pitched sound. Humans can only hear sounds that are in a certain range of frequencies, this is generally 20 to 20 000 Hz, but perception of sounds at the upper end reduced with age. Sounds that are above 20 000Hz are said to be ultrasonic.
Humans can hear within the 20 to 20 000Hz range. Other animals have much higher ranges of hearing: dogs can hear up to 45 000 Hz, cats up to 64 000Hz and the bat up to 110 000 Hz. Some animals also have ranges of hearing much smaller than humans: the chicken has a range of 125 - 2000Hz.
Ultrasound has many uses, and here we will look at SONAR and medical imaging.
Sonar stands for 'sound navigation and ranging'. In it's simplest form, it can be used to calculate the depth of the sea. This is done by emitting an ultrasonic pulse, this bounces off of the sea bed as an echo, and the time taken for it to return is recorded. Using, speed = distance/time it is possible to calculate the distance, take the example below.