What is gravity?
Posted: Mon Apr 16, 2018 11:37 pm
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(Warning – extreme speculation ahead.
)
When it comes to the question of what gravity is all about, is it possible that it has something to do with the superpositioning and entanglement of our quantum underpinning?
For instance, a planet’s gravitational status is based upon its overall mass which, logically (from the quantum perspective), is the sum-total of all of the waveforms of a planet’s contents and features - all blending together into one superpositioned wave.
And when a random asteroid, for example, crashes to a planet’s surface, the asteroid’s wavefunction...
(which up to that moment was basically autonomous in the vacuum of space)
...is now subject to becoming entangled (cohered?) with the planet’s greater wavefunction.
In other words, upon contact with a planet, the asteroid’s wavefunction seamlessly intertwines itself (becomes one) with the planet’s overall wavefunction, thus becoming superpositionally enmeshed with the planet’s phenomenal structures – as is loosely depicted in the right-hand side of my illustration of the laser hologram below...
In which case, the occurrence of what we refer to as being the asteroid’s newly acquired “weight” is something that is proportional to the degree of the entanglement of its own unique waveform constituents with those of the rest of the planet.
And the point is that because the asteroid has a greater array of quantum attributes than that of a feather, for example, it is thus “heavier” than the feather due to a greater complexity of its entanglement with the “whole.”
And all that means is that as we attempt to move or lift the asteroid (or a bowling ball, or a freight train), we are, in essence, “tugging” on a vastly greater web of superpositionally entangled waves than those that comprise the feather...
...hence we therefore encounter a greater resistance to our effort.
Furthermore (and with the help of a rocket), if we were to send the asteroid back into space, it would simply be a situation of detangling (decohering?) its wavefunction from the greater wavefunction of the planet...
(with the degree of detangling still having something to do with distance, as per Newton’s law)
...thus restoring the autonomy of its wavefunction (and its prior weightlessness) in the vacuum.
Now I realize that what I am proposing is highly speculative, however...
...is it possible that the greater the volume and complexity of the entangled morass of quantum waves that comprise a planet’s overall wavefunction is what determines the strength of that which we call a planet’s gravity?
_______
(Warning – extreme speculation ahead.
)When it comes to the question of what gravity is all about, is it possible that it has something to do with the superpositioning and entanglement of our quantum underpinning?
For instance, a planet’s gravitational status is based upon its overall mass which, logically (from the quantum perspective), is the sum-total of all of the waveforms of a planet’s contents and features - all blending together into one superpositioned wave.
And when a random asteroid, for example, crashes to a planet’s surface, the asteroid’s wavefunction...
(which up to that moment was basically autonomous in the vacuum of space)
...is now subject to becoming entangled (cohered?) with the planet’s greater wavefunction.
In other words, upon contact with a planet, the asteroid’s wavefunction seamlessly intertwines itself (becomes one) with the planet’s overall wavefunction, thus becoming superpositionally enmeshed with the planet’s phenomenal structures – as is loosely depicted in the right-hand side of my illustration of the laser hologram below...
In which case, the occurrence of what we refer to as being the asteroid’s newly acquired “weight” is something that is proportional to the degree of the entanglement of its own unique waveform constituents with those of the rest of the planet.
And the point is that because the asteroid has a greater array of quantum attributes than that of a feather, for example, it is thus “heavier” than the feather due to a greater complexity of its entanglement with the “whole.”
And all that means is that as we attempt to move or lift the asteroid (or a bowling ball, or a freight train), we are, in essence, “tugging” on a vastly greater web of superpositionally entangled waves than those that comprise the feather...
...hence we therefore encounter a greater resistance to our effort.
Furthermore (and with the help of a rocket), if we were to send the asteroid back into space, it would simply be a situation of detangling (decohering?) its wavefunction from the greater wavefunction of the planet...
(with the degree of detangling still having something to do with distance, as per Newton’s law)
...thus restoring the autonomy of its wavefunction (and its prior weightlessness) in the vacuum.
Now I realize that what I am proposing is highly speculative, however...
...is it possible that the greater the volume and complexity of the entangled morass of quantum waves that comprise a planet’s overall wavefunction is what determines the strength of that which we call a planet’s gravity?
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