20210322

Why Clock Speed Increases at High Altitude

PSI Blog 20210322 Why Clock Speed Increases at High Altitude

 

A question from Bill Howell:

 

“Hi Glenn- Per your request, I have a question: 

 

In IUT on pages 260-261 you describe (and depict in Figure 51) a halo of decelerated aether enveloping the Earth to explain the stable orbit of geosynchronous satellites and why gravity does not exhibit aberration.  I’ve read that without the proper application Einstein’s general theory of relativity, GPS satellites would produce inaccurate results of one’s location on Earth.  One description states: “The net result is that time on a GPS satellite clock advances faster than a clock on the ground by about 38 microseconds per day.”[1] Assuming that’s true, and given your model, couldn’t this time correction be re-interpreted to be indicative of the aether pressure gradient in the halo at the distance above the Earth that geosynchronous satellites orbit?  If so, an alternate question is could it be indicative of an aether density gradient rather than a pressure gradient?”

 

[GB: Great questions! The answer to the first is yes. To the second, an equivocal no. According to my Aether Deceleration Theory (ADT), aether pressure increases with distance from Earth, while its density decreases. This is because highly active distal aether particles have high short-range velocities, which decrease when they collide with ordinary matter. That means, of course, that these decelerated aether particles will have decreased velocities, which will decrease their potential for leaving whatever they collided with. This is where Newton made his greatest blunder regarding his push theory of gravitation. He proposed that the pushing medium increased in density with distance from Earth. He had entirely forgotten his Second Law of Motion. He should have known gravitation was an acceleration. An accelerator was called for and its deceleration was inevitable. I say the answer to your second question is equivocal only because, in this case, pressure and density are inversely related.

 

The beauty of ADT is that it shows how gravitation fosters creation by pushing things together, with its own perpetrators first doing the pushing and then sticking around to add to the creation. The deceleration produces a sort of aether vacuum around ordinary objects. That is the reason aether particles tend to travel toward those objects. Like Newton’s failed hypothesis, other push theories lack the reason for gravitational motion to be directed at baryonic matter. It is simple: particles in areas of high pressure tend to move toward areas of low pressure. So, the real actor in gravitation is pressure, not density. Pressure is the initiator; density is the result.

 

Now, with regard to your GPS question. The answer fits right in with ADT. As I mentioned, aether pressure increases with distance from Earth. That means any clock will receive more aetherial impacts at high altitude than at low altitude. Being a time piece, the clock is like any other microcosm containing submicrocosms in motion. Collisions from supermicrocosms (aether particles) in the macrocosm (environment) will increase the velocities of those submicrocosms within the clock. Think of it this way: When we reheat a cup of coffee in the microwave, those aetherial waves impact the cup, accelerating the water molecules within. Thus, whatever cyclic reactions are within a particular clock will be speeded up as a result of increased aetherial pressure.

 

Although the General Relativity Theory based explanation is just another einsteinism (right for the wrong reason), that theory is not used by engineers who developed GPS. They simply use a correction for altitude. They don’t need 4-dimensions or any other Einsteinian hocus-opus to do that.[2]]

 



[2] Hatch, Ronald R., 1995, Relativity and GPS, 3rd Natural Philosophy Alliance Conference: Northern Arizona University, Flagstaff, AZ, p. 1-26 [https://go.glennborchardt.com/Hatch-GPS].