Matter tells space-time how to curve According to the grid model , space itself is a solid structure of the grid particles. The "...
Matter tells space-time how to curve
According to the grid model, space itself is a solid structure of the grid particles. The "regular" particles are waves, self-closed standing waves, or open-ended onward waves formed from the grid particles vibrations by changing the vibration from unsynchronized to synchronized. According to the grid model, the synchronously vibrating grid particles are closer to each other than the unsynchronized, this way the synchronously vibrating grid particles, namely the "regular" particles, distort the solid structure of the grid field, distort the space. Because the grid particles are bonded locally to each other, the local distortion creates a distortion gradient on the grid field. This effect in the grid model is what the classical physics call gravity.
Distortion can be created in a solid material - as the grid field is - in conventional ways too. Tension and torsion can modify the structure, can modify the relative positions, the average distance of the grid particles from each other. General relativity includes these kinds of properties in its functions also.
The magnitude of the distortion depends on the bonding force of the grid particles. If the bonding force between the grid particles is strong, then the distortion - created by the synchronous vibrations - is small. The strength of the gravity is conversely proportionate to the bonding force of the grid particles.
Because - according to the grid model - synchronous vibration distorts the space, the grid model suggests, it is the model's obvious and direct consequence, the bosons also distort the space. Because bosons - like photons - usually represent much smaller energy than the fermions, and because bosons are moving with the speed of light, the effect is much smaller and difficult to measure.
Space-time tells matter how to move
When a particle (closed-loop or open-ended synchronous vibration) moves on the grid field, and no other acting force present, the vibration distributes itself to the closest grid particles according to the actual momentum of the wave. The waves propagate following the density path of the grid particles. This movement is the inertial motion in classical physics.
The grid model is able to demonstrate the gravity, able to demonstrate the inertia, and able to show the connection between them.
Time, according to the grid model, not exist as an individual property of the space. Time manifested in the grid model is a kind of emergent property like temperature or pressure. More details about the time are in other thoughts under the label time. Space-time in the grid model appears as a description instead of an actual property.
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