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Posted (edited)

mass is nothing more than resistance to inertia change. NOTHING MORE. Particles that are confined via their field interactions gain mass depending on how much confinement energy is involved.

 

Please stop answering questions incorrectly.

Edited by Mordred
Posted

Inertia is a stress, dependent upon how force is applied to a object this stress may manifest as sheer, tension and compression. This is observed clearly by the way of which no inertia is felt when a object has force applied evenly throughout its entire volume. Therefor inertia has no effect on the overall velocity of a object.

Posted

If force is applied to a finite volume of a object which is smaller than the entire volume of that object the force strength (through the volume where force is applied) increases by the same proportion as the inertial stress (through the volume of the object where force is not applied) providing the two volumes remain constant in volume.

 

Where F is the force strength (applied to a object within a volume smaller than the entire volume of the object), where I is the inertial stress felt through the volume where force is not applied, and S is represents that each previously defined volume remains constant with respect to size.

 

 

I = F/S

 

 

If force is applied in such a way as to push the object the volume where force is not applied feels compression stress,

 

If force is applied in such a way as to pull the object the volume where force is not applied feels tension stress.

 

These stresses are felt because a object is not literally solid, it is held together by electro-static bonds which have a elasticity to them.

 

That is all for inertia.

Posted

Inertia is resistance to change in a objects velocity, in a vacuum.

With this a infinitesimal field strength would not cause a infinitesimal change in velocity, in fact there would be a threshold of force which must be exceed in order for a object to change velocity, this is the single reason why inertia is in no way related to velocity.

Posted

in fact there would be a threshold of force which must be exceed in order for a object to change velocity

 

 

Please provide some evidence to support this.

Posted

If force is applied to a finite volume of a object which is smaller than the entire volume of that object the force strength (through the volume where force is applied) increases by the same proportion as the inertial stress (through the volume of the object where force is not applied) providing the two volumes remain constant in volume.

 

Where F is the force strength (applied to a object within a volume smaller than the entire volume of the object), where I is the inertial stress felt through the volume where force is not applied, and S is represents that each previously defined volume remains constant with respect to size.

 

 

I = F/S

 

 

If force is applied in such a way as to push the object the volume where force is not applied feels compression stress,

 

If force is applied in such a way as to pull the object the volume where force is not applied feels tension stress.

 

These stresses are felt because a object is not literally solid, it is held together by electro-static bonds which have a elasticity to them.

 

That is all for inertia.

Turning sense into non-sense is not your work.

Inertia is the intrinsic property of massive bodies to resist force. By Newton's definition, F=ma. Here m is the inertial mass. So, m=F/a.

Posted

!

Moderator Note

 

Sam Batchelar

 

Carry on posting nonsense in the main forum and you will be put in the mod queue - this means that your posts will have to be pre-vetted by staff before they appear in public.

 

Be warned

 

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