“The Coriolis force is
F = -2*m*(w X v)
Where m is the mass of a deflected object, w is the angular velocity of the rotating object (for Earth, 360 deg./day or about 1E-5 radians/sec), v is the velocity of the deflected object, and X indicates a vector cross product.”
Can we assume that the Coriolis force is somewhat responsible for the small variations on light velocity and its bending on gravitational fields?
“The surface of a black hole is a vast thick cloud of light elements with violent activity caused by incoming object "splashes" and underlying fusion flare ups coupled with very low gravitational "pull" from below (in reality push from above). These fusion flare-ups also create a continual downward and outward pressure culminating in continual ejection of material at the tips of the hemispheres defined by the fusion band. In addition temperature differences, centrifugal, Coriolis and ionic/magnetic effects stir up violent storms to cast off more light material. The black hole acts as a dirty ball sloughing off light materials, mainly hydrogen, along its path. Within the dust cloud surrounding the "black hole" conditions are right for rapid coalescence of stars. Many of these stars would be short lived, as their mass would cause them to be again returning to and be absorbed by the black hole. The black hole area is a continually very violent and volatile region, even more mysterious than is imagined in the traditional black hole concept.”
No. The coriolis force is needed to explain coriolis acceleration, which is an artefact produced when you are using a rotating reference frame.
When you switch to a stationary reference frame coriolis acceleration, and force, disappears. AFAIK space time on a stellar scale is best examined by using a stationary reference frame.
Cheers
Greg Locock
Please see FAQ731-376 for tips on how to make the best use of Eng-Tips.
