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Likewise, objects on Earth are caught in the gravitational turbulence of the planet curving spacetime. This explains, in part, why an object on one side of the planet falls in opposition to an object falling on the other side of the planet. It is not due to gravity inherent in the mass of the objects or their individual curving of spacetime, but to the turbulence of the planet curving spacetime.
 
Likewise, objects on Earth are caught in the gravitational turbulence of the planet curving spacetime. This explains, in part, why an object on one side of the planet falls in opposition to an object falling on the other side of the planet. It is not due to gravity inherent in the mass of the objects or their individual curving of spacetime, but to the turbulence of the planet curving spacetime.
   
This effect may be observed on spacecraft entering the Earth’s atmosphere because time and gravity fluctuate due to the turbulent curvature of spacetime. Indeed, time and gravity may change for any object in freefall around the planet. The effects may be more apparent the farther and faster the object falls, or the more massive the object is.
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This effect may be observed on spacecraft entering the Earth’s atmosphere because time and gravity fluctuate due to the turbulent curvature of spacetime. Indeed, time and gravity change for any object in freefall around the planet. The effects are more apparent the farther and faster the object falls.
   
 
But even objects at rest on the planet will appear to have different weights as the Earth rotates and proceeds in its orbit around the Sun. This is manifest, in part, by the variances in gravity around the globe [http://en.wikipedia.org/wiki/Earth's_gravity].
 
But even objects at rest on the planet will appear to have different weights as the Earth rotates and proceeds in its orbit around the Sun. This is manifest, in part, by the variances in gravity around the globe [http://en.wikipedia.org/wiki/Earth's_gravity].
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