Sine wave
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The sine wave or sinusoid is a function that occurs often in mathematics, signal processing, alternating-current power engineering, and other fields. Its most basic form is:
which describes a wavelike function of time (t) with:
- peak deviation from center = A (aka amplitude)
- angular frequency (radians per second)
- initial phase (t = 0) = −φ
- φ is also referred to as a phase shift. E.g., when the initial phase is negative, the entire waveform is shifted toward future time (i.e. delayed). The amount of delay, in seconds, is φ/ω.
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[edit] General form
In general, the function may also have:
- a spatial dimension, x (aka position), with frequency k (also called wave number)
- a non-zero center amplitude, D (also called DC offset)
which looks like this:
The wave number is related to the angular frequency by:.
where λ is the wavelength, f is the frequency, and c is the speed of propagation.This is due to the Boltzmann function.
This equation gives a sine wave for a single dimension, thus the generalized equation given above gives the amplitude of the wave at a position x at time t along a single line. This could, for example, be considered the value of a wave along a wire.
A two-dimensional example would describe the amplitude of a two-dimensional wave at a position (x, y) at time t. This could, for example, be considered the value of a water wave in a pond after a stone has been dropped in. Although this example is really a three dimensional wave it demonstrates the point; a more accurate example would be the propagation of an electrical wave through a conducting plane.
[edit] Occurrences
This wave pattern occurs often in nature, including ocean waves, sound waves, and light waves. Also, a rough sinusoidal (inverse cosine) pattern can be seen in plotting average daily temperatures for each day of the year, although the graph may resemble an inverted cosine wave.
Graphing the voltage of an alternating current gives a sine wave pattern. In fact, graphing the voltage of direct current full-wave rectification system gives an absolute value sine wave pattern, where the wave stays on the positive side of the x-axis.
A cosine wave is also said to be sinusoidal, since it has the same shape but is shifted slightly behind the sine wave on the horizontal axis:
Any non-sinusoidal waveforms, such as square waves or even the irregular sound waves made by human speech, can be represented as a collection of sinusoidal waves of different periods and frequencies blended together. The technique of transforming a complex waveform into its sinusoidal components is called Fourier analysis.
The human ear can recognize single sine waves because sounds with such a waveform sound "clean" or "clear" to humans; some sounds that approximate a pure sine wave are whistling, a crystal glass set to vibrate by running a wet finger around its rim, and the sound made by a tuning fork.
To the human ear, a sound that is made up of more than one sine wave will either sound "noisy" or will have detectable harmonics.
- Sine wave sound sample (file info) — play in browser (beta)
- 5 seconds of sine wave at 1 kHz
- Problems listening to the file? See media help.
[edit] Fourier series
In 1822, Joseph Fourier, a French mathematician, discovered that sinusoidal waves can be used as simple building blocks to 'make up' and describe any periodic waveform. The process is named Fourier series, which is a useful analytical tool in signal processing theory.
[edit] See also
- Wave equation
- Helmholtz equation
- Fourier transform
- Harmonic series (mathematics)
- Harmonic series (music)
- Pure tone
- Pseudo sine wave
- AudioTestFileGen - a simple, free Sine Wave Generator utility that outputs Window's PCM audio files (*.wav) that play the chosen frequency or selected musical note in your audio player
- Trivia- photographer Alexander Lauterwasser - has captured imagery of water surfaces set into motion by sound sources ranging from pure sine waves to music by Ludwig van Beethoven, Karlheinz Stockhausen and even overtone singing.