@[email protected]M to Science [email protected]English • 5 months agoIrrationalmander.xyzmessage-square55fedilinkarrow-up1297
arrow-up1297imageIrrationalmander.xyz@[email protected]M to Science [email protected]English • 5 months agomessage-square55fedilink
minus-square@[email protected]linkfedilinkEnglish4•5 months agohttps://www.sciencenews.org/article/quantum-physics-imaginary-numbers-math-reality
minus-square@[email protected]linkfedilinkEnglish8•5 months agoImaginary numbers are a rotational operator. You don’t need quantum mechanics to observe rotation in the real world.
minus-square@[email protected]linkfedilinkEnglish2•5 months ago but irrational numbers like pi i is a rotational operator. So equations with i in them have pi encoded into them too. Trying to expand a quantized rotation into a quantized linear coordinate is attempting to square a circle.
https://www.sciencenews.org/article/quantum-physics-imaginary-numbers-math-reality
Imaginary numbers are a rotational operator.
You don’t need quantum mechanics to observe rotation in the real world.
Removed by mod
i is a rotational operator. So equations with i in them have pi encoded into them too.
Trying to expand a quantized rotation into a quantized linear coordinate is attempting to square a circle.