Difference between revisions of "Dynamic Interaction of Unbalanced Masses Spinning in Vacuum"
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− | This paper presents results of experimental research in vacuum into interactions between spinning disks that are close together but not mechanically linked. The research demonstrates that, during co-rotation at large angular velocities, there are interaction forces between the disks, causing precession of the disk spins and elastic deformation of the disk surfaces, in the form of a screw twisting. Thus there is energy transfer from one spinning disk to another initially immobile disk, leading it to gyration, and in their simultaneous gyration, a crossinhibiting action, and heating of the disks.[[Category:Scientific Paper]] | + | This paper presents results of experimental research in vacuum into interactions between spinning disks that are close together but not mechanically linked. The research demonstrates that, during co-rotation at large angular velocities, there are interaction forces between the disks, causing precession of the disk spins and elastic deformation of the disk surfaces, in the form of a screw twisting. Thus there is energy transfer from one spinning disk to another initially immobile disk, leading it to gyration, and in their simultaneous gyration, a crossinhibiting action, and heating of the disks. |
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+ | [[Category:Scientific Paper|dynamic interaction unbalanced masses spinning vacuum]] |
Latest revision as of 10:17, 1 January 2017
Scientific Paper | |
---|---|
Title | Dynamic Interaction of Unbalanced Masses Spinning in Vacuum |
Read in full | Link to paper |
Author(s) | V N Samohvalov |
Keywords | {{{keywords}}} |
Published | 2011 |
Journal | Galilean Electrodynamics |
Volume | 22 |
Number | S1 |
No. of pages | 4 |
Pages | 3-6 |
Read the full paper here
Abstract
This paper presents results of experimental research in vacuum into interactions between spinning disks that are close together but not mechanically linked. The research demonstrates that, during co-rotation at large angular velocities, there are interaction forces between the disks, causing precession of the disk spins and elastic deformation of the disk surfaces, in the form of a screw twisting. Thus there is energy transfer from one spinning disk to another initially immobile disk, leading it to gyration, and in their simultaneous gyration, a crossinhibiting action, and heating of the disks.