polarity vs phase shift in noise reduction

I am trying to implement noise cancellation and I have a few perhaps basic questions

Basic Information on what I am trying to do: * My input source audio is in time domain format, so I have discrete real values. I am guessing that these are what are known as "polar values"? * I have a formula from Algorithm for Noise Cancellation which operates in frequency domain.
* Hence I have FFT to convert time domain to frequency domain

Questions

1. Is the basic idea to destructively cancel noise to reverse the phase of the original source signal?

2. Is phase shift a function that operates on signals in frequency domain? That is, do I just shift the frequency by 180 degrees on each frequency in the result of the FFT that converts my time domain to frequency domain?

3. Is reversing the polarity the same thing as shifting phase? That is, if I multiplied each value in time domain by -1 (negative one), will that active the same thing as converting the signal to frequency domain and then shifting the phase by 180 degrees?

4. Final question, How do I shift a phase by 180 degrees? Does that link I saw above essentially active just that? I mean, on each frequency value I have from my FFT, what mathematical operation on each distinct value performs the equivalent of a 180 degree phase shift?

Thanks Deshawn

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