Time-domain to frequency domain

AI Thread Summary
A sine wave plotted against time shows its amplitude over time, while in the frequency domain, it appears as a delta function at its specific frequency. This delta function represents a single vertical line at that frequency on a spectrum analyzer, indicating the amplitude. Additionally, there is a second delta function at the negative frequency, and a phase shift of π/2 is also present. Oscilloscopes provide a time-domain view, displaying the wave as cycles over time, whereas spectrum analyzers focus on frequency representation. Understanding these differences is crucial for analyzing signals in various applications.
justwild
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How will the graph of a sine wave (plotted against time axis) of a particular frequency look like if the same is plotted against frequency?
 
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Single sine wave frequency domain graph is a delta function at the frequency of the sine wave.
 
mathman said:
... is a delta function at the frequency of the sine wave.
Do you mean that there will be single thin line rising upto 1 corresponding to that frequency only?
 
from a practical point of view, for an example of this your could compare 2 different pieces if test equip used for measuring/displaying a signal
An Oscilloscope gives a time domain view ... the y ( vertical ) axis is amplitude
the x-axis is time ... you will see the signal ( frequency ) displayed as a series of cycles on the screen

A Spectrum Analyser gives a frequency domain view ... again you have y-axis as amplitude, but in the x-axis is frequency, there is only that single vertical line representing that frequency

Dave
 
mathman said:
Single sine wave frequency domain graph is a delta function at the frequency of the sine wave.

There is a second delta function at the negative frequency. In addition, there's a phase shift of \pi/2.
 
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