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Originally Posted by wisp How does matter get its mass from the ether?
The tiny particles that make up the ether have mass and there are a finite number of them associated with each type of fundamental particle, which forms patterns around holes in the ether, and each pattern has a unique mass value. But this is its absolute mass, and not the detectable one that we measure.
When we measure a fundamental particle’s mass, we are actually measuring the difference between the absolute mass of the ether and that of the ether material, which makes up the particle. For example, lets say the ether has a density of 1000 units and the absolute density of matter is 999 units, we detect matter as having a measurable density of 1 unit, which is the difference between the two absolute values (1000-999=1). So even though a particle has an absolute mass value associated with the ether material that makes up its structure, when we measure its mass we detect only the difference.
It follows also that when a force acts upon a particle, the inertial mass that the force acts on is not its absolute ethereal particle mass but the difference in absolute masses between the ether and the particle. I.e., the holes or absence of ether account for the measurable mass detected. |
Would not the principle of osmosis apply here!Just a thought!
regards michael.