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Diracs Dad
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Hello, Does a spinning mass warp space time differently than a non rotating mass? Is the generated gravitational field different, and have there been any experiments to actually verify or falsify this?
Diracs Dad said:Hello, Does a spinning mass warp space time differently than a non rotating mass? Is the generated gravitational field different, and have there been any experiments to actually verify or falsify this?
Spinning mass and spatial distortion refer to the effect of a rotating object on the surrounding space. This phenomenon is described by Einstein's theory of general relativity and is commonly seen in objects with high mass and rotation, such as black holes.
According to general relativity, mass and energy can warp the fabric of space-time. When an object with a high mass also has angular momentum (rotation), it causes a twisting of the space-time fabric, resulting in spatial distortion.
The most well-known example is the distortion of space around a spinning black hole. Other examples include neutron stars and planets with high rotation rates.
The effects of spatial distortion depend on the strength of the distortion and the distance from the spinning mass. In the case of a black hole, it can cause extreme tidal forces and gravitational lensing, which can significantly impact nearby objects.
While the most extreme examples of spinning mass and spatial distortion are found in astronomical objects, we can observe similar effects on a smaller scale in our daily lives. For example, spinning a heavy object, such as a top, causes a slight warping of the surrounding space that can be observed through changes in the object's behavior.