orbital loop.

 

 

 

 

 

 

 

 

 

Planet monthly rotational irregularity:

One of the possible way to increase and decrease the time of permanence inside the areas of the fix level, it’s by decelerating or accelerating the rotational motion of the moving level.

The rate of the change of the rotational motion: its velocity, shapes the path in two equal orbits traveled the first half in a direction that gets reversed (mirrored) in the second half.

An orbital loop, shaped with two straight lines and a tight half circle trajectory would generate not changes in the synchrony time / light-shade on the planet, generating the asymmetry in the planet (rotorbital) rotational motion, matching the data collected with the free fall experiment: the deceleration it is relate to the ordinary rate of rotation, while the acceleration it’s related to the deceleration. The moving level never accelerates more than the ordinary rate of rotation.  The Pfield capacity of keeping its central axis always aligned with the center of the Sun, annuls the anomalies due to: different rate of rotational motion / orbital direction (right to left) / distance from the Sun (sequence far / close / far), generating the condition in which by recreating the ordinary symmetry light / shade, visually doesn’t seem the Planet changes orbital direction.

 

 

At 12 o’clock, the planet starts the orbital loop by leaving the orbital path. From now on, getting closer to the Sun, the Planet decreases velocity of the rotational (rotorbital) motion. While leaving the orbital path the planet makes the first change of direction, then covering a straight trajectory, followed by the second change of direction. After 23 h 18 m the rate of rotation has been constantly slowed of 23m 18s corresponding to 1 second every 60 seconds. (11.18.56)

Now in 9 hours, we have four changes in the rate of rotational motion: the first segment of 2 h 15 m constantly slowed of 1 second every 30 seconds. The second segment of 2 h 15 m the slowing rate increases to 1 second every 15 seconds. (15.48.11). Until now the orbital path has been toward the Sun, reducing the distance from it and the (rotorbital) rotational motion proportionally slowed. From now on, the orbital trajectory is backward getting away from it, increasing the distance from it, the Plane increases the velocity of the rotorbital) rotational motion.

The third segment of 2 h 15 m the planet rotational motion starts to reverse its path, accelerating the rotational motion of 1second every 15 seconds. Then in the last segment of 2 h 15 m, the rate of rotation accelerates to 1 second every 30 seconds. (20.17.26). In this segment of the orbital loop, is operated with left/right direction and close / far toward the Sun: the Planet by keeping its central axis (the empty center of the four areas of the front half) always aligned with the center of the Sun,  recreates the symmetry light / shade modified by the change of the direction of the orbital path, without generating asymmetry into the ordinary day.

Third change of direction, then the last segment of the orbital loop, a straight line identical to the first, but covered accelerating the rotational motion of 1second every 60 seconds, until the forth change of direction. The accelerating produces an enlargement of the orbital direction placing the Earth on the ordinary orbital revolution around the Sun of 2 m 43 s (19.35.44) before the point that has been left to begin the orbital loop (12.00.00).  After 55 h 35 m 44 s of orbital loop, the planet starts again its ordinary orbital motion around the Sun with the ordinary rate of rotation (rotorbital) motion.

 

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