In physics and mathematics, we utilize waves.
The driving disturbance radially propagates,
transferring energy going through space,
relocating matter, no needing it to phase.
The type of direction, behavior of the pulse,
sorts of kind of wave propagation that results.
If the path is perpendicular,
the wave is called transverse.
Displaced along the axis,
the peaks and troughs disperse.
Parallel direction, wave is longitudinal.
Compression and expansion should be movable.
We interact with waves every single day,
from the sound of the song to the light of the day.
Waves, we got the waves, we got the waves,
everybody wave.
Waves,
we got the waves,
we got the waves,
everybody wave.
A sinusoidal wave is the simplest form,
based on the sine function,
this,
the basic norm.
The distance from identical points on
adjacent waves is called the wavelength.
The spacing
that it saves,
the period is the interval of time
required for two points from two different
ways to pass along their four.
The number of crests that pass a given spot is called
the frequency,
is in hertz, not in watts.
The measure of a crest to the axis of the
x is known as amplitude.
The volume that projects harmonics are created by combining different
signs.
The timbre of an instrument developed from these lines.
Waves, we got the waves, we got the waves,
everybody wave.
Waves, we got the waves,
we got the waves, everybody wave.
Two or more waves are traveling through,
the algebraic sum is the resultant value.
Waves that obey are referred as linear,
have larger wavelengths,
amplitudes are skinnier.
When separate waves combine its interference,
creating a new wave,
a change in its appearance,
an oscillation pattern that doesn't move
through space is called a standing wave.
Different points are in phase,
the node at the point,
when the amplitude's at minimum,
that the wave rises up, antinode is at maximum.
The most common form of these is musical resonance,
a drum head speaker box,
cause the audience to dance.
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