by As I see it » Sun May 19, 2024 1:23 pm
Drinking my coffee this morning and found this jewel of a discussion!
What are Newton’s Laws of Motion? We all know this, classic classroom stuff:
An object at rest remains at rest, and an object in motion remains in motion at constant speed and in a straight line unless acted on by an unbalanced force. The acceleration of an object depends on the mass of the object and the amount of force applied. Whenever one object exerts a force on another object, the second object exerts an equal and opposite on the first.
Step out of the limited space of the classroom and out into the vast universe, and neither "rest" or "constant speed" are helpful descriptors of an object's motion. Consider a condition of "free-fall" now instead - and a special case of free-fall where an object riding or resting on another object is hitching a ride on that object in free-fall. "Straight line" is now replaced by "trajectory" as every object in free-fall is in a trajectory, where orbits are included as being a subset of trajectories.
"The acceleration of an object depends on the mass of the object and the amount of force applied." Let's next make a distinction of how a "force" is applied. When an 'external' force is applied (an action/reaction from another object - including firing a rocker motor (momentum transfer), this will cause that object to change its trajectory, but only while the external force is applied. It will be on new free-fall trajectory when that force ceases. Only external forces, or inertial forces should be considered "forces"
What I have outlined above differs from what is taught in high school physics, in particular, force and acceleration due to 'internal' or 'body' forces. Fall off the roof of your house, and F=ma applies as you fall, right? It is better to think this condition to be a free-fall condition with no external forces applied, and then calculate the acceleration and velocity values for your free-fall trajectory. You can now calculate the acceleration you will experience when you hit the ground given that you know the duration of the impact and the amount of velocity rebound that you may experience. Be sure to take and analyze high speed video. You will need something to do during your recovery.
With the exception of objects colliding, rebounding, or that have their rocket motors on, everything can be thought of as being in a free-fall trajectory, or riding on another object in a free-fall trajectory. And every mass trajectory affects all other masses and their trajectory.
The necessary attributes of an aether to make all that ^ up there all work, is an aether that is an integral component within all matter. To make matter move along a trajectory without any external forces means that the aether must lock on to every atomic nucleus within all matter, and have a continuous and unbroken connection between matter. The aether is very much like a liquid crystal that carries all matter immersed within it. A continuous and unbroken connection with matter - yes, but also connected to and affected by the nucleus (which contains the mass information) of each and every atom.
With this moving and flowing liquid crystal (it is the mass/matter that is doing the flow control for the entire interconnected system, the 'liquid' serving only as a connecting medium) that puts all matter within the system on its trajectory. How stiff is this stuff?? Very very stiff! Just try to change the trajectory of any one item in the system!
Therefore, in very general terms, the aether we all seek must have the attributes of a close-packed and incompressible crystalline structure that is fluid and is an integral part of all matter (permeates all matter). Additionally, since we all know that gravity and EM transmission is undamped, then we can eliminate the damping mechanism, namely collisions between the particles of the close-packed and incompressible crystalline structure.
I hope this information is helpful, and that it is correct too!
Drinking my coffee this morning and found this jewel of a discussion!
What are Newton’s Laws of Motion? We all know this, classic classroom stuff:
An object at rest remains at rest, and an object in motion remains in motion at constant speed and in a straight line unless acted on by an unbalanced force. The acceleration of an object depends on the mass of the object and the amount of force applied. Whenever one object exerts a force on another object, the second object exerts an equal and opposite on the first.
Step out of the limited space of the classroom and out into the vast universe, and neither "rest" or "constant speed" are helpful descriptors of an object's motion. Consider a condition of "free-fall" now instead - and a special case of free-fall where an object riding or resting on another object is hitching a ride on that object in free-fall. "Straight line" is now replaced by "trajectory" as every object in free-fall is in a trajectory, where orbits are included as being a subset of trajectories.
"The acceleration of an object depends on the mass of the object and the amount of force applied." Let's next make a distinction of how a "force" is applied. When an 'external' force is applied (an action/reaction from another object - including firing a rocker motor (momentum transfer), this will cause that object to change its trajectory, but only while the external force is applied. It will be on new free-fall trajectory when that force ceases. Only external forces, or inertial forces should be considered "forces"
What I have outlined above differs from what is taught in high school physics, in particular, force and acceleration due to 'internal' or 'body' forces. Fall off the roof of your house, and F=ma applies as you fall, right? It is better to think this condition to be a free-fall condition with no external forces applied, and then calculate the acceleration and velocity values for your free-fall trajectory. You can now calculate the acceleration you will experience when you hit the ground given that you know the duration of the impact and the amount of velocity rebound that you may experience. Be sure to take and analyze high speed video. You will need something to do during your recovery.
With the exception of objects colliding, rebounding, or that have their rocket motors on, everything can be thought of as being in a free-fall trajectory, or riding on another object in a free-fall trajectory. And [i]every[/i] mass trajectory affects all other masses and [i]their[/i] trajectory.
The necessary attributes of an aether to make all that ^ up there all work, is an aether that is an integral component within all matter. To make matter move along a trajectory without [i]any[/i] external forces means that the aether must lock on to [i]every[/i] atomic nucleus within [i]all[/i] matter, and have a continuous and unbroken connection between matter. The aether is very much like a liquid crystal that carries all matter immersed within it. A continuous and unbroken connection with matter - yes, but also connected to and affected by the nucleus (which contains the mass information) of each and every atom.
With this moving and flowing liquid crystal (it is the mass/matter that is doing the flow control for the entire interconnected system, the 'liquid' serving only as a connecting medium) that puts all matter within the system on its trajectory. How stiff is this stuff?? Very very stiff! Just try to change the trajectory of any one item in the system!
Therefore, in very general terms, the aether we all seek must have the attributes of a close-packed and incompressible crystalline structure that is fluid and is an integral part of all matter (permeates all matter). Additionally, since we all know that gravity and EM transmission is undamped, then we can eliminate the damping mechanism, namely collisions between the particles of the close-packed and incompressible crystalline structure.
I hope this information is helpful, and that it is correct too!