Blog Ekkehard Friebe

By Daniel L. Haulman 
1819 East Trinity Blvd., Montgomery, AL 36106

Max Planck’s Quantum Theory and Albert Einstein’s Relativity Theory contradict each other. If one is true, the other is false. Scientists continue to imagine that both are true, applying Quantum Theory to very small objects and subatomic particles, and Relativity Theory to very large objects and space. However, the two theories cannot both be true. I believe that if one of the theories must be discarded, it should be Relativity Theory, because it is based on the false premise that the speed of light is not relative.

1. New Theory in a Nutshell
A moved from B to C in one second. During that second, the distance between B and C changed from x meters to y meters. What was the speed of A? One second before A reached C, A was x meters away from C. Relative to C, the speed of A was x meters per second. One second after A left B, A was y meters away from B. Relative to B, the speed of A was y meters per second. The speed of A relative to B did not equal the speed of A relative to C.

The speed of A was not absolute but relative. A could have been a photon. If the speed of a photon is relative, the speed of light is relative. If the speed of light is relative, the foundation of Albert Einstein’s special and general theories of relativity is false.

2. An Example of Relative Light Speed
Albert Einstein’s special and general theories of relativity are both built on the belief that the speed of light in a vacuum is always the same, regardless of the objects from which it is measured.

That speed, according to the theories, is always approximately 186,000 miles per second. Let me explain why this idea makes no sense.

Suppose a spacecraft were approaching a planet at a speed of 1,000 miles per second. When it was 187,000 miles away from the planet, it shot a laser light beam toward the planet. Would the laser light reach the planet one second later, when the spacecraft was 186,000 miles away from the planet?

If the speed of the light were 186,000 miles per second relative to the spacecraft from which it came, one second after leaving the spacecraft, it would have reached a distance of 186,000 miles away from the spacecraft. If the spacecraft were 186,000 miles away from the planet one second after launching its light beam, the light beam would have reached the planet in one second.

But if the light from the spacecraft reached the planet one second after being 187,000 miles away from the planet, the speed of the light would have been 187,000 miles per second relative to the planet. In other words, if the speed of the light from the spacecraft were 186,000 miles per second relative to the spacecraft, it would have been 187,000 miles per second relative to the planet.

If the speed of the light from the spacecraft were 186,000 miles per second relative to the planet, one second after being 187,000 miles away from the planet, the light would be 1,000 miles away from the planet. If the spacecraft were 186,000 miles away from the planet one second after launching its light beam, and the head of the light beam were 1,000 miles away from the planet, the light would have moved only 185,000 miles away from the spacecraft in one second. In other words, if the speed of the light from the spacecraft were 186,000 miles per second relative to the planet, the speed of the light would have been only 185,000 miles per second relative to the spacecraft.

Apologists for Einstein might argue that time passes more slowly on the spacecraft than on the planet, because the spacecraft is moving faster than the planet. According to the theory, the faster an object travels, the slower time passes for it. If the light moved 186,000 miles in one second relative to the spacecraft, it could have moved 187,000 miles in more than one second relative to the planet. If the light moved 186,000 miles in one second relative to the planet, it could have moved 185,000 miles in less than a second relative to the spacecraft.

The argument falls apart if the spacecraft were moving away from the planet. According to the theory, the faster an object travels, the slower time passes for it. Time would still be passing more slowly for the spacecraft than for the planet, even if the spacecraft were moving away from, rather than toward, the planet. Let us see what happens then.

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