Can energy go through higher dimensions?
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Answered by
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HEY MATE ⭐⭐⭐
HERE'S THE ANSWER ✌
_______________
⬇⬇⬇⬇⬇.
Theoretically everything is possible that you can dream up.
That's really not the problem with gravity. The problem with gravity is that it is very hard to make measurements that take theoretical imagination to a viable hypothesis.
✅✅✅
___________
HOPE IT HELPS ☺☺☺☺
HERE'S THE ANSWER ✌
_______________
⬇⬇⬇⬇⬇.
Theoretically everything is possible that you can dream up.
That's really not the problem with gravity. The problem with gravity is that it is very hard to make measurements that take theoretical imagination to a viable hypothesis.
✅✅✅
___________
HOPE IT HELPS ☺☺☺☺
Answered by
4
The energy through time is..
Rationale
This is the "rest" energy. While an object may be at "rest" in space it is still moving through time.
Cool Fact #1
We can write an interesting equation...
Energy (unlike momentum which adds like a vector) is a scalar quantity and adds like real numbers. We can then express the total kinetic energy in spacetime as the sum of the kinetic energies in each dimension, or more specifically, summed over each degree of freedom.
Cool Fact #2
We can use this equation to understand the mysterious "mass defect" in nuclear reactions. This "missing mass" and "mass-to-energy" mystery in nuclear reactions confuses the neophyte student, and all it is... is the kinetic energy shuffling between space and time directions! [3]
When mass disappears, decreases, in a nuclear reaction really hasn't disappeared - it is the kinetic energy of the particles through our direction of time redirected into the kinetic energy of the particles through our space
Rationale
This is the "rest" energy. While an object may be at "rest" in space it is still moving through time.
Cool Fact #1
We can write an interesting equation...
Energy (unlike momentum which adds like a vector) is a scalar quantity and adds like real numbers. We can then express the total kinetic energy in spacetime as the sum of the kinetic energies in each dimension, or more specifically, summed over each degree of freedom.
Cool Fact #2
We can use this equation to understand the mysterious "mass defect" in nuclear reactions. This "missing mass" and "mass-to-energy" mystery in nuclear reactions confuses the neophyte student, and all it is... is the kinetic energy shuffling between space and time directions! [3]
When mass disappears, decreases, in a nuclear reaction really hasn't disappeared - it is the kinetic energy of the particles through our direction of time redirected into the kinetic energy of the particles through our space
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