I was hoping finally for some insight into how mass/energy/acceleration might emerge from Fourier analysis or quantum mechanics, but this didn't happen.
But the good news is that this post is a good counter to the misunderstanding that Heisenberg's Uncertainty Principle is something physical, not just the basic mathematical nature of measurement and the relationship between a function and its derivative or integral.
Unfortunately, I don't yet have a clear signal theoretic interpretation of the Hamiltonian yet. Is that what you’re asking? In any case, thank you for the feedback (it means a lot to me). Also, please consider subscribing, because I'd appreciate your feedback on future posts as well!
My man pulled out the Dirac delta right at the start. Immediate follow. Great article!!!
Thank you! Glad you like it 🙏
I was hoping finally for some insight into how mass/energy/acceleration might emerge from Fourier analysis or quantum mechanics, but this didn't happen.
But the good news is that this post is a good counter to the misunderstanding that Heisenberg's Uncertainty Principle is something physical, not just the basic mathematical nature of measurement and the relationship between a function and its derivative or integral.
Unfortunately, I don't yet have a clear signal theoretic interpretation of the Hamiltonian yet. Is that what you’re asking? In any case, thank you for the feedback (it means a lot to me). Also, please consider subscribing, because I'd appreciate your feedback on future posts as well!