its not, it is observed differently by all observers.
Spacetime Studios was created in 2005.
Gravity is a force, not a bend in spacetime.
Look at this websitewww.spacetimemodel.com It says that mass is really just a 4d volume of spacetime displacing and therefore warping the spacetime around it and so the answer is all mass displaces and so warps spacetime.
SpaceTime - software - was created on 2007-06-04.
Energy output, as absolute brightness (magnitude) is taken at a standard distance of 10 parsecs.
Analyzing the worldline on a spacetime diagram can provide information about an object's motion, speed, direction, and interactions with other objects in the spacetime.
Mass warps spacetime due to the presence of gravity. According to Einstein's theory of general relativity, mass causes spacetime to curve, creating what we perceive as the force of gravity. This warping of spacetime is what causes objects to be attracted to each other.
yes, a rubber chicken has
my best guess is permanent
Spacetime, as described by Einstein's theory of general relativity, influences the movement of matter through its curvature. The presence of mass and energy in spacetime causes it to curve, affecting the paths that objects follow. Matter moves along the curved spacetime paths, following the "shortest" route, known as a geodesic. This interaction between spacetime curvature and matter dictates the movement of objects in the universe.
Quantum field theory (QFT) is impacted by the curvature of spacetime through the concept of curved spacetime in general relativity. In curved spacetime, the behavior of quantum fields is influenced by the curvature, leading to modifications in the way particles interact and propagate. This interaction between QFT and curved spacetime is crucial for understanding the dynamics of particles in the presence of gravitational fields.
Mass tells spacetime how to curve through its gravitational pull. According to Einstein's theory of general relativity, mass causes spacetime to bend or curve around it, creating the force of gravity. The more mass an object has, the stronger its gravitational pull and the greater the curvature of spacetime around it.