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Medium entrainment considered as flow
12 years 9 months ago #24190
by Bart
Replied by Bart on topic Reply from
"LB: What are your medium particles made of?"
The medium particles have the following properties:
- they are the constituting particles of dark matter and visible matter
- they are the constituting particles of the light-carrying medium
- they are in constant interaction with each other (thereby sharing their momentum)
- they move or vibrate with a speed that somewhat above the speed of light (in such a way that the forward speed of a momentum exercised on the meidum particles = the speed of light)
- by default, the particles move or vibrate in a random way
The medium that is constituded of the medium particles can subject to a flow of medium particles:
- the flow can be entrained by moving electrons (magnetism)
- the flow can be entrained by any other type of moving mass (gravitomagnetism)
Masses are entrained by the medium flow:
- electrons : (electromagnetism / Hall effect)
- masses (gravitomagnetism)
When the entrainment of the medium is performed with a periodicity corresponding to the induced wavelenght, an electromagnetic wave is induced:
- an electromagnetic wave reduces the randomness of the medium particles and makes them flow with a specific pattern
- the wave pattern takes energy to be developed and this energy is maintained in the medium
- the wave pattern moves forward with the speed of light
- a photon is a specific type of wave pattern that maintains itself while moving forward with the speed of light
(the energy contained in a single photon does not 'spread' out)
- the simplest form of an electromagnetic wave pattern corresponds with a 'spinning disk' (covered before)
A mass is constituded of medium particles that are subject to an electromagnetic wave pattern:
- the wave patterns within the mass are connected with themselves (so although the waves move with the speed of light, they retain their position within the mass)
- the wave patterns lock the medium particles togehter, thereby forcing them to move along with each other as one entity
- the medium particles within the mass have a velocity with a preferential 'perpendicular' direction
(in the direction towards are away from the center of the mass, the medium particles show a decreased average speed)
A mass reduces the speed of the medium particles surrounding it because of the above effect (a lesser average speed towards or away from the center of the mass).
This reduced speed is shared with medium particles at a further distance from the mass through the continued interaction of the medium particles.
(analogy: when the middle of a metal plate is heated, the heath will propagate because the atoms in the metal share their vibration with their neighbour atoms)
As a consequence, the speed of light surrounding a mass is reduced; at the same time, the effect decreases with the distance from the mass.
The recuding of the speed of light around a large mass is directly proportional to the number of medium particles that are locked into the mass.
The energy contained in a mass (the sum of all the electromagnetic waves) is proportional to E = Mc^2:
- m = the mass of the constituting medium particles
- c = the speed of light at the location of the mass
When an electromagnetic wave (with the spinning disk analogy) included within a mass becomes subject to a medium whereby the speed of light shows a gradient:
- the wave (spinning disk) will tend to move into the direction where the surrounding medium particles have the lowest speed (and the highest density)
- this is what constitutes the GRAVITATIONAL FORCE
When a mass effectively moves towards a position where the speed of the medium particles is reduced:
- The mass will lose energy because of E = mc^2
- this is what constitues the GRAVITATIONAL ENERGY
One could also state that the GRAVITATIONAL FORCE is the result of the tendency of a mass to move towards a position that reduces its ENERGY.
So Newton's apple is subject to a GRAVITATIONAL FORCE pointing to the Earth because the speed of the medium particles above the apple is higher than the speed of the medium particles below the apple.
When the apple effectively falls from the tree, then the energy contained whithin the apple is converted to:
- increased kinetic energy (acceleration) at the moment of falling down
- internal heath of the apple + deformation of the soil at the moment of hitting the Earth
So we end up with a 'lower energy' apple because of the reduced C (as per E=MC^2)
So the gravitational energy does not need to radiate as it is already contained within the mass that is subject to the gravitational force.
The medium particles have the following properties:
- they are the constituting particles of dark matter and visible matter
- they are the constituting particles of the light-carrying medium
- they are in constant interaction with each other (thereby sharing their momentum)
- they move or vibrate with a speed that somewhat above the speed of light (in such a way that the forward speed of a momentum exercised on the meidum particles = the speed of light)
- by default, the particles move or vibrate in a random way
The medium that is constituded of the medium particles can subject to a flow of medium particles:
- the flow can be entrained by moving electrons (magnetism)
- the flow can be entrained by any other type of moving mass (gravitomagnetism)
Masses are entrained by the medium flow:
- electrons : (electromagnetism / Hall effect)
- masses (gravitomagnetism)
When the entrainment of the medium is performed with a periodicity corresponding to the induced wavelenght, an electromagnetic wave is induced:
- an electromagnetic wave reduces the randomness of the medium particles and makes them flow with a specific pattern
- the wave pattern takes energy to be developed and this energy is maintained in the medium
- the wave pattern moves forward with the speed of light
- a photon is a specific type of wave pattern that maintains itself while moving forward with the speed of light
(the energy contained in a single photon does not 'spread' out)
- the simplest form of an electromagnetic wave pattern corresponds with a 'spinning disk' (covered before)
A mass is constituded of medium particles that are subject to an electromagnetic wave pattern:
- the wave patterns within the mass are connected with themselves (so although the waves move with the speed of light, they retain their position within the mass)
- the wave patterns lock the medium particles togehter, thereby forcing them to move along with each other as one entity
- the medium particles within the mass have a velocity with a preferential 'perpendicular' direction
(in the direction towards are away from the center of the mass, the medium particles show a decreased average speed)
A mass reduces the speed of the medium particles surrounding it because of the above effect (a lesser average speed towards or away from the center of the mass).
This reduced speed is shared with medium particles at a further distance from the mass through the continued interaction of the medium particles.
(analogy: when the middle of a metal plate is heated, the heath will propagate because the atoms in the metal share their vibration with their neighbour atoms)
As a consequence, the speed of light surrounding a mass is reduced; at the same time, the effect decreases with the distance from the mass.
The recuding of the speed of light around a large mass is directly proportional to the number of medium particles that are locked into the mass.
The energy contained in a mass (the sum of all the electromagnetic waves) is proportional to E = Mc^2:
- m = the mass of the constituting medium particles
- c = the speed of light at the location of the mass
When an electromagnetic wave (with the spinning disk analogy) included within a mass becomes subject to a medium whereby the speed of light shows a gradient:
- the wave (spinning disk) will tend to move into the direction where the surrounding medium particles have the lowest speed (and the highest density)
- this is what constitutes the GRAVITATIONAL FORCE
When a mass effectively moves towards a position where the speed of the medium particles is reduced:
- The mass will lose energy because of E = mc^2
- this is what constitues the GRAVITATIONAL ENERGY
One could also state that the GRAVITATIONAL FORCE is the result of the tendency of a mass to move towards a position that reduces its ENERGY.
So Newton's apple is subject to a GRAVITATIONAL FORCE pointing to the Earth because the speed of the medium particles above the apple is higher than the speed of the medium particles below the apple.
When the apple effectively falls from the tree, then the energy contained whithin the apple is converted to:
- increased kinetic energy (acceleration) at the moment of falling down
- internal heath of the apple + deformation of the soil at the moment of hitting the Earth
So we end up with a 'lower energy' apple because of the reduced C (as per E=MC^2)
So the gravitational energy does not need to radiate as it is already contained within the mass that is subject to the gravitational force.
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- Larry Burford
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12 years 8 months ago #13788
by Larry Burford
Replied by Larry Burford on topic Reply from Larry Burford
Bart,
You provided a lot of information about the properties of your medium particles. And about the interaction of your medium particles with energy and other forms of matter.
But my basic question remains unanswered - What are your medium particles made of? (Hint: there are several reasonable answers to this question. And there are a whole bunch of unreasonable answers.)
Good luck,
LB
You provided a lot of information about the properties of your medium particles. And about the interaction of your medium particles with energy and other forms of matter.
But my basic question remains unanswered - What are your medium particles made of? (Hint: there are several reasonable answers to this question. And there are a whole bunch of unreasonable answers.)
Good luck,
LB
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12 years 8 months ago #13790
by Bart
Replied by Bart on topic Reply from
One aspect that I did not cover is the electric force field. Somehow the medium particles should account for this effect as well.
One option is to assume the medium particles to consist of even lower-level particles.
Each 'medium particle' would thereby form a small dipole consisting of lower-level particles rotating around its center.
An electric field is then be the alignment of the medium particle dipoles.
At the location of a mass, the small dipoles would then organize themselves geometrically as the nanoparticles in a ferrofluid:
en.wikipedia.org/wiki/Ferrofluid
Every peak in the ferrofluid has its magnetic field pointing in the same direction (towards or away from the mass).
Taking this analogy: medium particle dipoles all be facing in the same direction towards the mass
(thereby showing either a positive or negative charge at the outside of the mass).
One option is to assume the medium particles to consist of even lower-level particles.
Each 'medium particle' would thereby form a small dipole consisting of lower-level particles rotating around its center.
An electric field is then be the alignment of the medium particle dipoles.
At the location of a mass, the small dipoles would then organize themselves geometrically as the nanoparticles in a ferrofluid:
en.wikipedia.org/wiki/Ferrofluid
Every peak in the ferrofluid has its magnetic field pointing in the same direction (towards or away from the mass).
Taking this analogy: medium particle dipoles all be facing in the same direction towards the mass
(thereby showing either a positive or negative charge at the outside of the mass).
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