The sinusoidal signal is called a basic signal because, by Fourier Analysis, you can not further reduce it. It is one sine wave of one frequency of one amplitude of one phase. It has no harmonics. If you converted it from time domain to frequency domain you would only get one line, at the fundamental frequency.
It does not have to be. Voltage can be DC, sinusoidal, square wave, triangular wave, etc.
if the speedometer works off of an input wave (sinusoidal signal) you would think the signal generator would be a source of reference
You may use a filter which will round off the square pulse to sine wave.The higher order the filter the better the SINE wave . The Square pulse and the sine wave must both be tuned to our required frequency
As a sinusoidal signal is clipped the waveform approaches a square wave.
sinusoidal vs non sinusoidal
they have an infinite energy
It does not have to be. Voltage can be DC, sinusoidal, square wave, triangular wave, etc.
A sinusoidal signal.
The process of changing the shape of a non-sinusoidal signal by passing it through the network consisting of linear elements is called "Linear Waveshaping"
They are the same thing.
if the speedometer works off of an input wave (sinusoidal signal) you would think the signal generator would be a source of reference
Sinusoidal Capillaries
You may use a filter which will round off the square pulse to sine wave.The higher order the filter the better the SINE wave . The Square pulse and the sine wave must both be tuned to our required frequency
As a sinusoidal signal is clipped the waveform approaches a square wave.
You have to excite it with a sinusoidal signal then measure the current or voltage
SInusoidal oscillators have a wide range of applications including usage in radios, televisions, communication systems, computers, industrial controlled applications, and laboratories. They work as as a function or signal generator.
Examples of the periodic signals include exponential and sinusoidal signal.