Sound in our world, Music – Elenco Snap Circuits® Deluxe Sound & Light Combo User Manual

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Sound in Our World

Electronically we amplify sound by converting

the sound waves into an electrical signal,

amplify the electrical signal, and then convert

that back to sound waves.

There are many other applications for sound

waves. Here are some examples:
In SONAR (short for SOund Navigation And

Ranging), sound waves are sent out underwater

at various frequencies and the echoes are

measured; the distance to any objects can be

determined using the time for the echoes to

arrive, and the speed of sound. SONAR is used

for navigating around underwater obstacles and

for detecting other ships, especially submarines.

SONAR is also used by the fishing industry to

help find and harvest fish. Sound waves can

also be used to determine the depth of an oil

well. RADAR (RAdio Detection And Ranging) is

similar to SONAR but uses radio waves instead

of sound waves.

Ultrasound waves are above 20 kHz, beyond

the range of human hearing. Bats use

ultrasound waves to effectively “see” in the

dark. Ultrasound waves are also used in

medical imaging, to create pictures of muscles

and organs in the human body. Ultrasound

waves are sometimes used in cleaning items

like jewelry.

Ultrasonic welding is used in industry to bond

materials (usually plastics) together using high

frequency sound waves. The energy of the

sound waves is concentrated at the points to

be bonded, and basically melts the material at

the contact points. This can create a strong

bond, without using glue or nails. Ultrasonic

welding has been used to bond the bottoms of

Snap Circuits

®

parts in the past, and might still

be used for the speaker (SP2) and

microphone (X1).

Earthquakes are compression waves, similar

to sound waves but with enormous power.

Using triangulation from several measurement

points, and knowing how fast these waves can

travel across the earth’s surface, scientists can

determine where the earthquake began (called

the epicenter).

Music

The subject of music is one where the worlds

of art and science come together.

Unfortunately, the artistic/musician field works

with qualities that depend on our feelings and

so are difficult to express using numbers while

science/engineering works with the opposite -

clearly defined, measurable qualities. As a

result, some of the terms used may seem

confusing at first, but you will get used to them.
Music is when vibrations (creating sound

waves) occur in an orderly and controlled

manner forming a pattern with their energy

concentrated at specific frequencies, usually

pleasant to listen to. Noise is when the

vibrations occur in an irregular manner with

their energy spread across a wide range of

frequencies, usually annoying to hear (static

on a radio is a good example). Notice how

some people refer to music that they don’t like

as noise. In electrical systems, noise is

undesired interference that can obscure the

signal of interest.
Another way to think of this is that the ear tries

to estimate the next sounds it will hear. Music

with a beat, a rhythm, and familiar instruments

can be thought of as very predictable, so we

find it pleasant to listen to. Notice also that we

always prefer familiar songs to music that we

are hearing for the first time. Sudden, loud,

unpredictable sounds (such as gunfire, a glass

breaking, or an alarm clock) are very

Cone

Ear Trumpet

Stethoscope

Horn

Anvil or jig

Plastic

parts

Phase 1

Phase 2

Phase 3

Pressure is applied

by the horn.

The horn vibrates

the plastic parts

very quickly.

The plastic parts

melt together from

the friction created.

SONAR

Ultrasonic welding

Ultrasound photo of a heart (echocardiogram)

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