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| Tags: matter, space, time |
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#1
October 11th 05
posted to alt.sci.physics,sci.physics,sci.math
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Matter, space & time
There are only three concepts required in "Euclidean Physics": They are Matter, moving in (Euclidean) Space, during Time. Each requires a dimension to measure it's quantity: The dimensions to measure quantities of matter are the mutual physical thrusts exerted by bodies of matter to cause mutual rates of displacement (s/t^2) from where they were in Euclidean Space. The dimensions to measure rates of displacements in Euclidean Space are displacement (s), and periods of time (t). The quantity of matter in a given body of it is Inertia; which is the ratio of the net thrust, or force (f), exerted on, and/or by it, divided by the rate of displacement (s/t^2) that it causes. Mathematically, a body's Inertia (I) equals the net force (f), divided by the rate of displacement (s/t^2) that it causes; which is most concisely written as I=ft^2/s, and is equal to the body's weight (w), divided by the rate (g/2) at which it will free fall at the location where it is weighed; in vacuum. Don 
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#2
October 11th 05
posted to alt.sci.physics,sci.physics,sci.math
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Matter, space & time
"Don1" wrote in message oups.com... There are only three concepts required in "Euclidean Physics": They are Matter, nope, Mass moving in (Euclidean) Space, during Time. Each requires a dimension to measure it's quantity: The dimensions to measure quantities of matter are the mutual physical thrusts exerted by bodies of matter to cause mutual rates of displacement (s/t^2) from where they were in Euclidean Space. no, Mass The dimensions to measure rates of displacements in Euclidean Space are displacement (s), and periods of time (t). you mean velocity rates, The quantity of matter in a given body of it is Inertia; which is the ratio of the net thrust, or force (f), exerted on, and/or by it, divided by the rate of displacement (s/t^2) that it causes. You mean Mass Mathematically, a body's Inertia (I) equals the net force (f), divided by the rate of displacement (s/t^2) that it causes; which is most concisely written as I=ft^2/s, and is equal to the body's weight (w), divided by the rate (g/2) at which it will free fall at the location where it is weighed; in vacuum. If it is in free fall it has no weight. Don
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#3
October 11th 05
posted to alt.sci.physics,sci.physics,sci.math
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Matter, space & time
Order...., why not? An object is only in free fall within a
gravitational field wherein it has weight.
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