I'll have to compensate for the space-time curvature effects first, though.

The space-time curvature at that level is so great that everything gets bent right back in to the middle.

The tidal acceleration is thus related to space-time curvature.

Once this result is in place it will be possible to discuss how to relate space-time curvature mathematically to mass/energy.

"In general relativity," he went on, "energy implies space-time curvature.

The gravitational forces are the manifestation of space-time curvature due to the presence of matter.

I've seen at least a couple of posts, here, that mix "space-time curvature" with "acceleration".

Energy, of any form, produces space-time curvature.

Singularity: A point in space-time at which the space-time curvature becomes infinite.

Sort for Terran-type hominids along maximal space-time curvature.

"I'm starting to see it-extreme space-time curvature at CZero."

Gravitation is then built into the theory from the outset through a key equation, proposed by Einstein, that links space-time curvature to the matter distribution.

Penrose proposes that a quantum state remains in superposition until the difference of space-time curvature attains a significant level.

The angle 'missing' may be thought of as the amount the gyroscope 'leans over' into the slope of the space-time curvature.

"I'm getting extreme space-time curvature right at CZero.

The third type of test poses the following question; "Is there a limit to the Casimir force that is dependent on space-time curvature?"

Not ripples in space-time curvature that travel at speed "c", but wave functions that have an associated non-locality aspect?

"Space-time curvature?"

This, the Riemann curvature tensor, quantifies space-time curvature.

"When they open, they cause a localized disruption of the space-time curvature, to a range of approximately a hundred thousand kilometers.

Instead of expelling the patterning node out of the universe, you get a massive and permanent space-time curvature forming around it."

According to general relativity, the gravitational interaction is described in terms of space-time curvature using the mathematical formalism of Riemannian geometry.

Further complications in elucidating the various concepts of weight have to do with the theory of relativity according to which gravity becomes reduced to a space-time curvature.

When space-time curvature increases, it may be necessary to decrease the dimensions of the frame so that the tidal acceleration associated with the curvature is negligible.

Thus it seems that SCC predicts a limit to the Casimir force as a function of space-time curvature that may be detectable.