scifi science theory
Henryk Szubinski
free energy, the vacuum energy and more.
Henryk Szubinski
free energy, the vacuum energy and more.
every time a universe rotates ,it may rotate back to it's previous position, as such the amount of such turns are defined by the amount of the vacuum energy.
So too when the universe has a relation with the "free energy" this recreates the universe so that each point in the universe will keep on rotating the universe
by rotation of every point in space , for such an amount of rotation until the universe is rotated backwards and then when the backwards rotation reaches a particle of vacuum, the particle will connect to the rotation of the universe in the forwards direction and do so for as long as each such particle of vacuum energy rotates it to accellerate ahead and then rotate back to it's previous position.
left side of universe rotation forwards = rotation back
as
universe rotation reverse= rotation forwards.
The universe may do this "infinitely and eternally".
So too when the universe has a relation with the "free energy" this recreates the universe so that each point in the universe will keep on rotating the universe
by rotation of every point in space , for such an amount of rotation until the universe is rotated backwards and then when the backwards rotation reaches a particle of vacuum, the particle will connect to the rotation of the universe in the forwards direction and do so for as long as each such particle of vacuum energy rotates it to accellerate ahead and then rotate back to it's previous position.
left side of universe rotation forwards = rotation back
as
universe rotation reverse= rotation forwards.
The universe may do this "infinitely and eternally".
differences in wobble = variables between them of the wobble slowing down or increasing.
from
nasa
system in wobble.
nasa
system in wobble.
https://www.nasa.gov/ames/kepler-finds-a-very-wobbly-planet
Imagine living on a planet with seasons so erratic you would hardly know whether to wear Bermuda shorts or a heavy overcoat. That is the situation on a weird, wobbly world found by NASA's planet-hunting Kepler space telescope.
The planet, designated Kepler-413b, precesses, or wobbles, wildly on its spin axis, much like a child's top. The tilt of the planet's spin axis can vary by as much as 30 degrees over 11 years, leading to rapid and erratic changes in seasons. In contrast, Earth's rotational precession is 23.5 degrees over 26,000 years. Researchers are amazed that this far-off planet is precessing on a human timescale.
read more on nasa.
Imagine living on a planet with seasons so erratic you would hardly know whether to wear Bermuda shorts or a heavy overcoat. That is the situation on a weird, wobbly world found by NASA's planet-hunting Kepler space telescope.
The planet, designated Kepler-413b, precesses, or wobbles, wildly on its spin axis, much like a child's top. The tilt of the planet's spin axis can vary by as much as 30 degrees over 11 years, leading to rapid and erratic changes in seasons. In contrast, Earth's rotational precession is 23.5 degrees over 26,000 years. Researchers are amazed that this far-off planet is precessing on a human timescale.
read more on nasa.