Vanhees71,
I appreciate the article. It is very interesting and describes a little more detail about the use for microscopy, but I was hoping to find something more about the possibility of compound or layered link involving multiple entanglements rather than a single connection.
The forum...
I read this recent article describing photon quantum entanglement to produce higher resolution microscope. https://phys.org/news/2023-05-quantum-entanglement-photons-microscope-resolution.html
I am curious if quantum entanglement could exist in layers with a third or more entanglement feature...
I thought this was interesting and that the original statement you made
"It's known that the coefficient of static friction is always higher than the coefficient of kinetic friction."
I think this is entirely variable based on materials and direction of applied of force.
Materials 1st. If...
Jartsa,
Your experiment got me thinking and curious about what happens if the mirror is now 1 micro meter past the EH? Is the EH the critical point where space time dilation increases the path length beyond the photons ability to return?
Orodruin,
Although originally I was only asking about the approach to EH, your statement is very interesting. I would definitely like to look at what happens after passing the EH, but I'm going to guess that we will need to figure out how to modulate a carrier that is unaffected by gravity to...
Yeah,
Something is just bugging me about the photon being considered massless, but I want to read a little more to get a better understanding about Planck Mass first. Thanks though.
Thanks, I really appreciate the information from everyone!
I will stop back later because I have some questions about Photons (supposedly) having zero mass at rest and how we achieve an accurate rest frame when we can only base "rest" off relative motion.
Since we have no reference of a...
Well I appreciate that and the reference threads, and I do not trust what's on Wiki either. Hence why I'm in here... I guess I'm a little curious because the way it seems to me (and I may be so far off it's not funny) is that the gravitational effect would increase the frequency of any visible...
https://en.wikipedia.org/wiki/Blueshift
The second header "Gravitational Blueshift" has an illustration of a Gravity Well to the right and that is the accompanying text.
Actually I just found this on Wikipedia and it kind of answers it "Matter waves (protons, electrons, photons, etc.) falling into a gravity well become more energetic and undergo observer-independent blueshifting "
I know your not supposed to trust Wikipedia but does that sound right that it...
does the gravity from the black hole cause a continued shortening wavelength so that even from the source it would appear to blueshift until it went beyond visible wavelengths
I understand and thank you for the response, but was more curious about the if the intensity of the gravity would be enough to overcome any point of observation- source or receiver