THE DISTANCE BETWEEN TWO WAVES....
A wave length is the the point between each wave at the exact same point on each of the waves.
Wavelength is the distance from any point on a wave to the same point
on the next wave. The shape of the wave doesn't matter.
it's a sine wave
See the link belowA sine wave is computed by a mathematical function. A pure sine wave in a physical sense would exactly match the calculated value in the function at every point in time.
Sine wave
sine wave.
Yes. An electromagnetic wave follows a sine-wave pattern.
the length of time it takes to complete one cycle
By shifting the sine wave by 45 degrees.
A sine wave is the graph of y = sin(x). It demonstrates to cyclic nature of the sine function.
The voice is not a sine wave.
a phase shifted sine wave of a different amplitude.
cos wave
A sine wave has no harmonics. It only has a fundamental, so the value of the 2nd, 3rd, and 12th harmonics of a sine wave is zero.
It's called a sine wave because the waveform can be reproduced as a graph of the sine or cosine functions sin(x) or cos (x).
One cycle of a 125hz sine wave would last .008 seconds. Hz (hertz) refers to the frequency of the wave itself, that is, how many times the wave cycles in a second. To find the cycle length, then, simply divide 1 second by the frequency, in this case: 1/125 = .008.
The sine wave, with its repeating pattern, can represent a single frequency with no harmonics.
The differential of the sine function is the cosine function while the differential of the cosine function is the negative of the sine function.
A simple wave function can be expressed as a trigonometric function of either sine or cosine. lamba = A sine(a+bt) or lamba = A cosine(a+bt) where lamba = the y value of the wave A= magnitude of the wave a= phase angle b= frequency. the derivative of sine is cosine and the derivative of cosine is -sine so the derivative of a sine wave function would be y'=Ab cosine(a+bt) """"""""""""""""""" cosine wave function would be y' =-Ab sine(a+bt)