Newton's Electric Clockwork Solar System
source: http://www.holoscience.com/news.php?article=q1q6sz2s
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- rodstradamus
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"We are told that gravity rules the cosmos. The story of the big bang, the origin of galaxies and stars, and our ultimate fate are founded on this belief. But the March 2009 Astronomy magazine carries the surprising headline, “Is there something we don’t know about gravity?” The question should be, “why do we think that physicists know anything about gravity beyond mathematical descriptions of its observed effects?” All that modern physics has done is to obscure the need for serious investigation of an unsolved problem. Even some effects attributed to the action of gravity, like the bending of light, need not have anything to do with gravity. Indeed, we are so far from understanding gravity that we don’t know the right questions to ask.
In 1983 Mordehai Milgrom of the Weizmann Institute of Science in Israel proposed a modified Newtonian dynamics (MOND) to describe galactic motions. As explained in Electric Galaxies, the motion of galaxies is not gravity dominated. MOND may not be necessary for galaxies. However, some form of MOND is needed to explain stable planetary motion within the solar system.
Conventional celestial mechanics never thinks of the mass of a planet as a variable. However, if the electrical charge on a planet can directly affect its apparent mass to a significant degree, a new and important consideration is introduced to celestial mechanics. Newton’s well-known gravitational equation has the force (F) between the Sun and a planet as
F = GMm/r2 where
G = the ‘constant’ of gravitation,
M = mass of the Sun,
m = the mass of the planet, and
r = the distance of the planet from the Sun.
However, G is measured at the Earth’s surface and used in this equation for the Sun and every other planet. It is simply assumed that G is universal and has the same value for all celestial bodies."
In 1983 Mordehai Milgrom of the Weizmann Institute of Science in Israel proposed a modified Newtonian dynamics (MOND) to describe galactic motions. As explained in Electric Galaxies, the motion of galaxies is not gravity dominated. MOND may not be necessary for galaxies. However, some form of MOND is needed to explain stable planetary motion within the solar system.
Conventional celestial mechanics never thinks of the mass of a planet as a variable. However, if the electrical charge on a planet can directly affect its apparent mass to a significant degree, a new and important consideration is introduced to celestial mechanics. Newton’s well-known gravitational equation has the force (F) between the Sun and a planet as
F = GMm/r2 where
G = the ‘constant’ of gravitation,
M = mass of the Sun,
m = the mass of the planet, and
r = the distance of the planet from the Sun.
However, G is measured at the Earth’s surface and used in this equation for the Sun and every other planet. It is simply assumed that G is universal and has the same value for all celestial bodies."
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- groups:
- Weird Science, Electric Universe
