Well, maybe just a thought, it would take a massive EMP to affect the neutrino. It might be interesting to look at the effects of a coronal mass ejection or a supernova, versus the star's gravitational pull. Perhaps that was the intent of the question.
Then the answer would be: the neutrino is totally non-sensitive to electromagnetism and therefore does not care about electromagnetic fields populating space .
Moreover, it also interacts so weakly, even gravitationally, so that it is barely affected by any gravitational field too.
Neutrinos are weakly interacting particles, but they are not massive, so they cannot be WIMPs (besides, neutrinos aren't hypothetical, and they're hot, very hot
neutrinos arent wimps lol ... okay ... if i hang around here for another ten years i might get a clue hahah
but they do have mass or they would not collide .... interact , it's a very strange world ... neutrinos are virtually massless but they DO have mass, dark matter is hoped to have mass or it might never be detected (and it wouldnt be matter without mass), a foton has zero mass, unless it's moving, so it collides with certain surfaces , bounces back or gets slowed down and its trajectory altered (in water or glass or something)
i have learned quite a few bits so far but truly the more i see the less i know i know, i do understand why it would take a split personality to be a physicist now : its impossible to cram all that data in one single brain
I beg your pardon? :D
? @blockchainyouth Electro-Magnetic? Just curious to the thoughts.
I am as you here. I still do not understand what (s)he meant :)
Well, maybe just a thought, it would take a massive EMP to affect the neutrino. It might be interesting to look at the effects of a coronal mass ejection or a supernova, versus the star's gravitational pull. Perhaps that was the intent of the question.
Then the answer would be: the neutrino is totally non-sensitive to electromagnetism and therefore does not care about electromagnetic fields populating space .
Moreover, it also interacts so weakly, even gravitationally, so that it is barely affected by any gravitational field too.
the lack of mass ?
neutrinos arent wimps lol ... okay ... if i hang around here for another ten years i might get a clue hahah
Neutrinos are not that massive. By WIMPS, we are really considering something heavier. It is just a matter of scale :)
but they do have mass or they would not collide ....
interact , it's a very strange world ... neutrinos are virtually massless but they DO have mass, dark matter is hoped to have mass or it might never be detected (and it wouldnt be matter without mass), a foton has zero mass, unless it's moving, so it collides with certain surfaces , bounces back or gets slowed down and its trajectory altered (in water or glass or something)
i have learned quite a few bits so far but truly the more i see the less i know i know, i do understand why it would take a split personality to be a physicist now : its impossible to cram all that data in one single brain
thank you
Thank you so much sir.