New directions for short and long distance transportation

Someone recently asked a question; what is the power of gravity?

Answering the question is twofold. Explaining what gravity is, requires: understanding the nature of gravity, or defining what gravity is. Defining what the power of gravity does; is with Newton’s laws of motion from 400 years ago. He mathematically explained the principles of inertia, acceleration, action and reaction. In response to the question: what is the power of gravity, Newton’s laws of gravity sufficiently address the power that gravity has. What it is, that’s an entirely different question.

What is gravity?

Regarding the question of what gravity is, there is a new theory that determines gravity as an action of particle motion. According this new theory of gravity, which has been stated numerous times throughout these blogposts, it is the angular momentum of particle mass along its path, traveling at light speed through the universe. This suggests that the power of gravity is equal to the momentum of particle motion traveling at light speed. 

The nature of this statement is controversial to those who disagree with Einstein’s theory of relativity which states that the Milky Way galaxy is traveling through the universe at light speed. Considering that Einstein’s theory of relativity is correct, the application of gravity being the angular momentum of particle motion is applicable. This theory of gravity, however, does not discount or remove the principle of Newton’s Laws of Motion, which are based on the consistencies of uniform movement at light speed. This consistency of all matter traveling at this speed provides the appearance of standing still. Hence, energy equals mass time times the speed of light squared; rules that energy relates to that which exceeds matter traveling in the consistency of light speed.

New transportation

The significance of gravity regarding new transportation is fundamental to developing a brand-new mode of transportation. New modes of transportation require new methodologies. Society’s technological advances over the past 100 years necessitate the demand for efficient transportation. Both short-distance and long-distance transportation require innovative solutions. A reasonable pursuit towards discovering new methodologies in transportation innovation is by the manipulation of gravity.

Short-distance and long-distance transportation have different approaches

Two separate methodologies are at play with distance traveled. Short distance requires more destination flexibility. Also, a person traveling from their front door to the grocery store has little concern about speeds exceeding a thousand miles per hour.

Conversely, speed is an important factor with long distance travel, especially space travel. The Moon is 225,623 miles from Earth. The average distance to Mars is 200,000,000 million miles. A space ship traveling at light speed would allow the ship to reach Mars in a ½ hour. A space ship traveling from Earth to the moon at one-tenth the speed of light would reach the moon in 20 seconds.

The approach to discovering efficient transportation solutions is by looking where efficient energy sources can be found. The constant redesign of antique transportation technology is synonymous to constantly redesigning frivolous small bends into the wire of a 100-year-old mousetrap.

There is an enormous waste involved with chemical explosions to propel a vehicle. With today’s technological capabilities, it’s beyond comprehension that new methodologies haven’t been implemented.

Long distance transportation

The best illustration that shows energy waste are chemical explosions by rocket propulsion. By looking at a rocket launch from the perspective of physics; consider the action at its atomic level. The fundamental principle of an explosion is a collision of particles that release its energy in 360 degrees. The trajectory of a rocket is one direction of that 360-degree energy transfer. It doesn’t require an engineering degree to recognize this produces a massive amount of wasted energy. 

Ion propulsion is a popular area for current research. Although this technology is different than chemical explosions, its design fundamentally replaces a chemical explosion for an electric spark. It produces the electric spark as propulsion thrust. In a recent blogpost; Current state of space flight, a comment summarizes the direction of these endeavors:  a propellent-less propellent drive is another word for electric spark.

Rethinking space travel

Long distance transportation includes space travel.

There are several aspects of conventional rocket technology that require new concepts to attaining adequate speeds for space travel to be practical. The most effective method for space travel is with the utilization of gravity. This has already been proven with several NASA missions. The most recent use of gravity is the Parker Solar probe. It’s next loop using Venus’ gravity to accelerate the Parker Solar probe, will achieve a speed of 430,000 mile per hour.

From the blogpost Ultra-high-speed travel, is this paragraph: In the search for how to best build an ultra-fast space flight vehicle; what is the most appropriate technological approach? These pieces for building theories of design for attaining ultra-high speeds for space flight have become the focus of importance: gravity manipulation, spin, magnets, electrogravitics, and electromagnetics. The pursuit for how to fit these pieces together is like a puzzle.

With the components: manipulation of gravity, and momentum of spin, it’s theoretically plausible to produce an independent inertia field. Having a vehicle that has its own inertia field, this presents a new approach to space flight.

Viktor Schauberger was a 10^th generation master forester. His genius is unsurpassed in modern science regarding his understanding nature. One of his assertions: “understand and copy nature”. He found that all nature is centripetal in nature. He also said that all modern transportation is centrifugal, which opposes nature. This is a profound assessment to comprehend in considering new concepts for space travel. To copy nature is especially important as it relates to using the momentum of spin as a launch procedure.

The pursuit of propulsion technology as the only method of motion completely ignores the basic physics of magnets. Magnets repel and attract. How much energy does a magnet require to attract an opposite magnetic pole? This proposes the contemplation for using attraction as a possible means to replace propulsion.

Short distance transportation

The social demand for short distance transportation is to replace the unsustainability and inefficiency of the automobile. This requires: discovering a methodology, development, and implementation of a vehicle technology that is more convenient, faster, less expensive, more comfortable, safer, and easier to drive than a car. What technology can accomplish this? The CATTCC solution is levitation.

Levitation is the accumulation of vibrating mass. By the resonance of controlled vibration, it is theoretically plausible for levitation to be used as a transportation mechanism. Several of the CATTCC blogposts examine the possibilities for using levitation as a transportation mechanism. Leading research in this field was Viktor Grebennikov and his discovery of Cavity Structures Effects (CSE). This provides exploratory possibilities to examine.

The future of transportation floats.