Basics

The basic claim of this theory is that matter contracts space.

This simple assumption has two huge consequences according to how space probes are affected:

Deceleration due to resistance / inertia.

Strange deceleration is characteristic for the Pioneer Anomaly.

Matter is attached to space. Hence resistance emerges when matter moves in space. This means that a space probe will decelerate in any direction it moves due to matter/space resistance and not only decelerate towards the Sun or towards the Earth.

Resistance due to motion is already known.

It requires more and more energy to get a diminishing increase in speed.

Normally we would call this "inertia," but this expression is misleading as inertia only applies to acceleration. To avoid confusion, "resistance against motion" will be used instead. "Resistance" due to motion also applies when something moves with constant velocity. This will be mathematically proven in this chapter.

Resistance against motion is seen from the equation below:

KE = (y - 1) mc² - where γ = 1/√(1 - v²/c²)

This equation already tells us that motion travelling through space results in resistance.

On the one hand, no motion (Mo) reflects no resistance. On the other hand, the velocity “c” reflects 100% resistance.

In the equation above, (y-1)  expresses the transformation factor but it must naturally reflect the value of resistance as well, (negative velocity)   not only a factor which is able to show an object’s required energy necessary for acceleration and an object’s increase of mass due to higher velocity.

When travelling 12240 m/s (as pioneer 10 space probe did):

• (y - 1) = 8.33 × 10^-10 m/s²

Compared with this, (we know) the Pioneer probes were decelerating:

•  8.74 × 10^-10  m/s²

Even though we (above) can see a small difference, it is no coincidence that the values: (y-1) and the force that we know caused the deceleration of the pioneer space probes are so concordant.

Of course, the explanation to this is the same main thread that follows this theory: "matter contracts space". Hence we must have resistance when matter moves and the equation above must reflect this – and it does.

Later in this chapter we will also look into why we have the small difference between the two values.

Acceleration due to Space Wind (SW).

We can measure a gravitational anomaly thousands of miles above the Earth. This means that (deformed) space (around an object) is rotating together with the rotation of an astronomic body (the Sun or the Earth) etc... The Sun’s rotation around its own axis hence results in rotating deformed space around the Sun.

Space will follow a rotating body. Because matter and space is connected, space will move when matter moves. Hence space in motion can also pull matter into motion. We can call this space wind. (Not the same as Solar Wind).

This means that a space probe will be affected by space in motion, simply because a space probe (matter) is connected to space (in motion).

This idea is already well supported here

The space wind (SW) has the opposite effect (than resistance). A space probe moving in an SW-area will accelerate (opposite to the force that affected the Pioneer anomaly). The force of the SW is at the strongest (exactly zero degrees) around a rotating astronomic object’s equator.

Space Wind can also cause space probes out of course.

Space probes are mainly launched into anticlockwise orbits and trajectories.

The cause of the flyby anomaly seems to be the same law of nature in action, that also determinates:

• The rings of the gas planets

• Irregular moons

• That stars of the galaxies periphery are kept in orbit, and not thrown out. (Note these rings are also accelerated by the moons, so both theory are right).

The cause of the space probes velocity anomalies are:

Decelerating anomalies:

• Resistance  "inertia"

Accelerating anomalies:

• Extra rotation energy (Space Wind) from a planets rotation, - fly by

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