A gyroscopic rotating magnetic field

AI Thread Summary
The discussion centers on the concept of whether a gyroscopic rotating magnetic field can negate the effects of inertia during sudden stops in a vessel. The original poster suggests that such a field could absorb energy and prevent passengers from feeling deceleration, implying that mass and inertia may not be relevant in this scenario. However, responses clarify that inertia is fundamentally linked to mass, and no technology can eliminate the physical sensations associated with sudden changes in motion. The idea of a gyroscope made of magnetic bands is presented, but it is met with skepticism regarding its practical application and the laws of physics. Ultimately, the consensus is that inertia and the effects of G-forces cannot be ignored, regardless of the proposed technology.
Loki Prankster
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I may be on the wrong page but I had a question. You see, I do not have your math skills so I am stuck with an idea, and I have no way of finding out if I am on the right track.
Question:
"Can a gyroscopic rotating magnetic field render inertia mute?"
 
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Inertia and Mass

I am unclear on what you mean. Inertia is the tendency of an object to resist a change in it's motion. Inertia is a concept which is quantified in the concept of mass. Mass (technically 'inertial mass') tells you how much mass an object has. There is nothing which will "render mass mute".
 
Here is what I was thinking. An object in motion comes to a sudden halt. a rotating magnetic field absorbs the energy by rotating it around the vessel in pulse waves. The speed of the rotation is equal to the speed of the vessel. The passenger inside the vessel feels nothing. Honestly I feel that mass, weight, and size has no value. A gyroscope was made of magnetic bands, and the inside of the gyro was not effected by sudden directional shifts. G force did not exists. The way it works in a practical application a vessel would have an insulating material sandwiched between two conductive coatings: the inside, and the outside of a sphere. It is only an ideal, and I won't get broken up over it if it dose not work. These things keep popping up in my head.
 
Loki Prankster said:
Here is what I was thinking. An object in motion comes to a sudden halt. a rotating magnetic field absorbs the energy by rotating it around the vessel in pulse waves. The speed of the rotation is equal to the speed of the vessel. The passenger inside the vessel feels nothing. Honestly I feel that mass, weight, and size has no value. A gyroscope was made of magnetic bands, and the inside of the gyro was not effected by sudden directional shifts. G force did not exists. The way it works in a practical application a vessel would have an insulating material sandwiched between two conductive coatings: the inside, and the outside of a sphere. It is only an ideal, and I won't get broken up over it if it dose not work. These things keep popping up in my head.

You are saying that a passenger in a vessel that stops suddenly would feel no deceleration? That doesn't sound very physical. No gyroscopes or magnets will change what the passenger feels.
 
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