The First Law of Physics confirms what should be common knowledge.
Ride on a train while the train is moving through a bend in the tracks. You will be pulled sideways, outwardly away from the short side of the bend.
There is a good chance you’d adjust yourself a bit, particularly if the side-way motion goes on and on.
Then, when the train realigns itself back to following straight tracks, you’d readjust yourself once more, right?
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That is what is happening to satellites. Their clockworks need to be reset from time to time because they are not on the same train we are on.
At first, the satellites were on planet Earth, where everyone is moving in that side-way motion due to the planet’s spin.
Then, the satellites got launched into space, and stationed in an orbit around Earth.
Yet in that orbit, the full force of Earth’s spin is not as strong anymore. Plus, and this is more important, the ‘satellite train’ desires to adjust itself toward the normal straight tracks of matter moving through space.
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The First Motion that matter is involved in is based on the Big Bang. Whether we see this as an outward push, a retraction after tension led to damage among part (Big Whisper theory), or a catapulting action, the force that was seen with the Big Bang event does itself no longer exist.
- First Law of Physics: An object will remain in motion with a constant velocity unless acted upon by an external force!
Most physicists today believe that a force is always associated with an action or motion. They forget that the Big Bang is no longer an active event. Yet all energy and matter that got directed along a straight line due to this event did not get stopped. It is ongoing.
- And all matter is ongoing without any of that force being present.
The First Motion is a straight line — the train on the tracks going the fastest it can in a straight line.
Matter is also involved in other actions:
The Second Motion is the circular motion seen with galaxies.
The Milky Way has about 100 billion stars and all these celestial bodies are pulling on all other stars. Due to the circular motion, there is a balance between being pulled in and being pushed outwardly. There is an active force (gravity) and there is the circular motion.
- This specific train is moving through a bend forever.
The Third Motion does not involve stars at all. It’s about the revolving motion planets are involved in, going full circle around their stars.
- These trains are moving through (smaller) bends forever.
The Fourth Motion also does not involve stars. It’s about the spinning action seen with planets, their moons in tow.
- These trains are moving through the (smallest) bends forever.
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Let’s recap this in a different manner:
The center of the Solar System is involved in two motions.
- First Motion and Second Motion.
A (fastest) straight line motion together with a (reasonably fast) circular motion.
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Planet Earth is involved in four motions. The two mentioned above and the Third and Fourth Motions.
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A satellite launched from Earth will behave a little bit like a ball dropped by a person on horseback.
The ball will remain going in the direction it was already going with the horse, but it will also fall toward the ground due to gravity.
Two actions therefore, and since there is no ‘ground’ in the satellite launched into space, we have to invert the image some.
- Instead of adjusting oneself to the train going into a bend, one adjusts oneself when the train comes out of the bend. It is a motion back toward the norm.
The norm got setup by the Big Bang. The straight line is the true norm for matter in motion through space.
The Second, Third, and Fourth Motions are truly peanuts compared to the First Motion.
Nevertheless, the Second, Third, and Fourth Motions are force-based, whereas the First Motion is not based on an active force.
The satellites move a bit more into the action of the First Motion after they are launched.
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Let’s see if you can recognize the surprising conclusion about our Solar System.
The Solar System has a lot of circular motion (Third and Fourth Motions), yet the center of the Solar System is itself not involved in any Third or Fourth Motions.
The Sun sits in the center, involved with just First and Second Motions.
The closer a planet to the center of the Solar System, the greater the action of First Motion can exert itself on that planet. Mercury’s perihelion anomaly is better explained by its close proximity to the net-zero position of the Sun within the Solar System.
Neptune, the planet farthest removed from the Sun, will experience the least attraction to the First and Second Motions. While fully involved in all four Motions, Neptune is particularly ‘busy’ dealing with its own Third and Fourth Motion.
Mercury experiences the First and Second Motions most directly; its train pulled toward the straight alignment the most.
Neptune as a train will keep going in the rounding motions in the tracks, forever focusing on its own bend. It is simply coming along in the First and Second Motions, but under the greatest spell of Third and Fourth Motions.
