legendneverdie Posted December 29, 2024 Posted December 29, 2024 Predictions for Future Science 1. Photon Has Weight Photons are the foundational particles of quantum structures. Evidence: Every material, when burned or altered, emits photons, showing they are fundamental to all matter. Experiment: Use an LED light. Measure its weight before and after it burns out, ensuring no evaporation occurs. With precise instruments, a tiny weight loss should be detectable, proving photons have weight. 2. Space Flow and Particle Formation Space flows into every object, forming particles at the quantum level. For quantum particles, this flow is strong enough to maintain their structure. Without objects, there is no space flow. If only one object existed in the universe, all space would flow into it. 3. Rotational Effects on Space Flow Rotating objects like stars and planets create twists or bends in space flow, which could stabilize planetary systems. Hypothesis: If planetary or stellar rotation stops, gravity’s pull intensifies, and angular momentum could diminish faster than expected. Planetary rotation may be critical for maintaining initial orbital velocity, preventing rapid loss of momentum. 4. Light Bending Due to Space Flow Light bends around massive objects because space flows inward. Example: Light passing near the Sun bends as it follows the inward flow of space caused by the Sun's gravity. 5. Photon Energy Loss and Redshift A photon loses energy when traveling against space flow, depending on gravity and space flow strength. Example: Light emitted from the Sun loses energy while escaping the Sun's gravitational field, resulting in a redshift. But the light needs to pass strong Gravity field to get a noticeable redshift result. Depending on the number of Gravity objects and Gravity Strength. 6. Photon Wave Formation Photons push space particles as they travel, creating waveforms visible from all directions. Unlike water waves on a surface, space waves fill all dimensions. 7. Black Hole and Photon Escape At a black hole, photons cannot escape due to extreme space flow. Light reflecting from a black hole loses most of its energy as it meets the inward space flow. 8. Traveling Near a Black Hole With enough energy and strength, objects could theoretically travel near a black hole. Photons cannot escape because they lack continuous velocity and sufficient volume to counteract space flow. 9. Space as a Particle Space is composed of particles, distinct from photons but fundamental in nature. 10. The Universe is Larger than Detected The actual size of the universe is double the currently observable range. 11. The Universe Is Not Expanding The observed expansion is a perspective effect due to galaxies moving away over time. In reality, space flows inward into objects, causing space to shrink over time. 12. Edge of the Universe and SEM Black Holes At the edge of the detectable universe lies an unimaginably massive "Super Extreme Massive (SEM) black hole." This SEM black hole is larger than anything we can currently imagine and acts as a boundary for the universe. The SEM black holes formed shortly after the Big Bang, anchoring the structure of the universe. 13. Balloon Surface Analogy The universe can be compared to the surface of a balloon, where we exist inside the balloon. The "surface" of the balloon represents the edge of the universe, where SEM black holes are concentrated. These SEM black holes pull everything inward from the observable universe, creating the illusion of expansion at different rates. 14. End of the Universe and a New Big Bang Eventually, space will flow entirely into all SEM black holes, leaving no space between them. When these massive black holes merge, they will trigger an immense explosion, initiating a new Big Bang and restarting the universe. -1
exchemist Posted December 29, 2024 Posted December 29, 2024 2 hours ago, legendneverdie said: Predictions for Future Science 1. Photon Has Weight Photons are the foundational particles of quantum structures. Evidence: Every material, when burned or altered, emits photons, showing they are fundamental to all matter. Experiment: Use an LED light. Measure its weight before and after it burns out, ensuring no evaporation occurs. With precise instruments, a tiny weight loss should be detectable, proving photons have weight. 2. Space Flow and Particle Formation Space flows into every object, forming particles at the quantum level. For quantum particles, this flow is strong enough to maintain their structure. Without objects, there is no space flow. If only one object existed in the universe, all space would flow into it. 3. Rotational Effects on Space Flow Rotating objects like stars and planets create twists or bends in space flow, which could stabilize planetary systems. Hypothesis: If planetary or stellar rotation stops, gravity’s pull intensifies, and angular momentum could diminish faster than expected. Planetary rotation may be critical for maintaining initial orbital velocity, preventing rapid loss of momentum. 4. Light Bending Due to Space Flow Light bends around massive objects because space flows inward. Example: Light passing near the Sun bends as it follows the inward flow of space caused by the Sun's gravity. 5. Photon Energy Loss and Redshift A photon loses energy when traveling against space flow, depending on gravity and space flow strength. Example: Light emitted from the Sun loses energy while escaping the Sun's gravitational field, resulting in a redshift. But the light needs to pass strong Gravity field to get a noticeable redshift result. Depending on the number of Gravity objects and Gravity Strength. 6. Photon Wave Formation Photons push space particles as they travel, creating waveforms visible from all directions. Unlike water waves on a surface, space waves fill all dimensions. 7. Black Hole and Photon Escape At a black hole, photons cannot escape due to extreme space flow. Light reflecting from a black hole loses most of its energy as it meets the inward space flow. 8. Traveling Near a Black Hole With enough energy and strength, objects could theoretically travel near a black hole. Photons cannot escape because they lack continuous velocity and sufficient volume to counteract space flow. 9. Space as a Particle Space is composed of particles, distinct from photons but fundamental in nature. 10. The Universe is Larger than Detected The actual size of the universe is double the currently observable range. 11. The Universe Is Not Expanding The observed expansion is a perspective effect due to galaxies moving away over time. In reality, space flows inward into objects, causing space to shrink over time. 12. Edge of the Universe and SEM Black Holes At the edge of the detectable universe lies an unimaginably massive "Super Extreme Massive (SEM) black hole." This SEM black hole is larger than anything we can currently imagine and acts as a boundary for the universe. The SEM black holes formed shortly after the Big Bang, anchoring the structure of the universe. 13. Balloon Surface Analogy The universe can be compared to the surface of a balloon, where we exist inside the balloon. The "surface" of the balloon represents the edge of the universe, where SEM black holes are concentrated. These SEM black holes pull everything inward from the observable universe, creating the illusion of expansion at different rates. 14. End of the Universe and a New Big Bang Eventually, space will flow entirely into all SEM black holes, leaving no space between them. When these massive black holes merge, they will trigger an immense explosion, initiating a new Big Bang and restarting the universe. This is so bad it looks like an attempt at trolling.
swansont Posted December 29, 2024 Posted December 29, 2024 ! Moderator Note 1. There’s no models supporting any of this, so there’s not enough for this to be discussed in speculations 2. One idea per topic is a much better approach; this is a discussion forum, and multiple ideas make for messy discussions
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