Space Time Frame Drag Engine Concept

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SUMMARY

The discussion centers on the Space Time Frame Drag Engine Concept, inspired by the Space Time Frame Drag effect confirmed by Gravity Probe B (GP-B). The proposal involves utilizing two super heavy, spiracle objects, potentially made from Osmium, rotating in opposite directions to harness the effects of space time frame dragging for propulsion. The experiment requires a weightless environment, a laser range finder, and a high RPM motor to test the concept's viability. Theoretical implications include exploring the behavior of these masses as they approach infinite density and relativistic speeds.

PREREQUISITES
  • Understanding of Space Time Frame Drag effect
  • Familiarity with Gravity Probe B (GP-B) findings
  • Knowledge of properties of Osmium as a material
  • Basic principles of rotational dynamics in physics
NEXT STEPS
  • Research the mechanics of counter-rotating black holes
  • Explore advanced propulsion concepts in theoretical physics
  • Investigate experimental setups for testing frame dragging effects
  • Learn about the implications of relativistic speeds on mass and energy
USEFUL FOR

This discussion is beneficial for physicists, aerospace engineers, and researchers interested in advanced propulsion systems and the theoretical aspects of space-time manipulation.

Pepurr
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This occurred to me when I first heard of the Space Time Frame Drag effect, which was confirmed by the results of Gravity Probe B (GP-B). http://science.nasa.gov/science-news/science-at-nasa/2011/04may_epic/"
I am not a scientist or a mathematician, so I turn to my fellow humans who are. Do you think this would work?

Space Time Frame Drag Engine Concept
What if one was to have two super heavy, spiracle objects in space that were in close proximity to each other and their spin was in opposite directions? Would the effects of space time frame dragging cause both objects to move forward?

Perhaps one day in the future humanity could use two counter-rotating black holes. For now I propose using two objects made from the heaviest, stable element known to man. Perhaps something like Osmium.

Experiment:
Items needed:
2 ea. Spiracle, super heavy masses.
1 ea. Weightless environment.
1 ea. Laser range finder.
1 ea. Highest RPM motor man can build.

Set up in a way that the motor drives the Spiracle, super heavy masses so that they are counter-rotating.
Set up laser range finder in such a way as to detect any forward motion of the spires.

Possible Application:Use as drive for spacecraft .

Space_Time_Frame_Drag.png
 
Last edited by a moderator:
Science news on Phys.org
New Thought:

What would happen if the super heavy spiracle masses approached infinite density and their counter-rotation approached the speed of light? What would happen to the space time matrix between them?
 
20 hours, and not one bit of scholarly thought on this. I am very disappointed. I best seek advice elsewhere. :confused:
 

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