tag:blogger.com,1999:blog-30708128.post4036450585764781866..comments2023-12-27T00:49:31.972-08:00Comments on Aether Wave Theory: Is gravity or even vacuum formed by neutrinos?Zephirhttp://www.blogger.com/profile/06010623752049244967noreply@blogger.comBlogger1125tag:blogger.com,1999:blog-30708128.post-28302499980536062752009-01-10T05:49:00.000-08:002009-01-10T05:49:00.000-08:00Because of banning policy applied at Cosmic varian...Because of banning policy applied at Cosmic variance blog, I'll answer the interesting (=Aether concept related) question of Aaron Sheldon here: <BR/><BR/>http://blogs.discovermagazine.com/cosmicvariance/2008/12/27/gravity-emergesfrom-neutrinos/#comment-58473<BR/><BR/>Would that mean that the gravitational bending of light is actually due to refraction by the superfluid, because the index of refraction is proportional to the density of a superfluid? <BR/>Yes, such formalism exists from Newton times here http://arxiv.org/abs/physics/0011003 <BR/><BR/>But that would mean that emergent gravity’s bending of light would be frequency dependent, wouldn’t this be observable? <BR/>No, because the normal dispersion is caused by particle nature of environment, the anomalous dispersion is related to hole nature of environement. By AWT the holes in vacuum foam are always balancing the particles, because energy always follows the path of maximal speed here. In brief, you cannot observe the (effects of) environement by using of waves of such environment. You should simply find another, faster (but usually weaker) waves to study such effect.<BR/><BR/>Wouldn’t a moving observer feel a larger superfluid density in front of them and thus a larger emergent gravitational pull forward leading to runaway acceleration in the direction of motion? <BR/>During object motion a density blob AROUND it is really formed (a consequence of vacuum shaking by de Broglie wave). But not before it.<BR/><BR/>Is mass then due to vortice quantization? <BR/>By AWT nonzero rest mass is more closely related to positive surface curvature, i.e. by mass density gradient of environment.<BR/><BR/>What is the wave propagation speed of this superfluid, wouldn’t this finite speed be the effective speed for the propagation of effective gravitational interactions?<BR/>Yes, the speed of longitudinal waves be more specific.Zephirhttps://www.blogger.com/profile/06010623752049244967noreply@blogger.com