Table of Contents
In modern physics, the Bernoulli Effect is often explained through the “principle of conservation of energy”
- As the speed of a fluid increases, its static pressure decreases.
However, in Material Superphysics, this phenomenon is based on the flow of space particles.
Space Pressure
Outer space is full of space particles, with certain areas having more, others having less.
- This makes some areas dense with space particles, and others less dense.
Since the space particles exert a force in straight lines, the density difference creates pressure differences.
- High Space Pressure: Occurs where the 2nd-element particles are densely packed or moving in a constrained, chaotic manner. This creates a pushing effect as the particles push outward to maintain their orbital equilibrium.
- Low Space Pressure: Occurs where the particles are moving in a synchronized, streamlined “vortex” or flow. This creates a pull or suction as the surrounding, more pressurized aether seeks to move into the streamlined zone.
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