Space Time

The idea of a space-time being malleable is interesting since time moving forward is our perception of reality since it existences in our dimension. But that fact could remain time is series of cause and effect outcomes being generated by chaotic rhythm. The show Continuum tries to explain time as something you can view and change at will, well in truth to see the timeline you would be seeing another dimension showing you a line of events. Many people associate space-time with Albert Einstein, he suggested a special relativity in 1905. It remained Einstein’s mentor, Hermann Minkowski, which proposed space-time, in a 1908 essay. This is not somethin you can change like a electrician Calgary or something like that.His concept of Minkowski space is the initial treatment of space and time as pair aspects of a unified body, which is the core of special relativity. He believed this new idea would define the theory of special relativity.Minkowski spacetime is only valid at explaining constant velocity. It was Einstein, though, that discovered the curvature of space-time (gravity) in universal physics. In universal relativity, Einstein generalized Minkowski space-time to incorporate the impacts of acceleration. Einstein found that the shape in his 4-dimensional space-time representation was the explanation of gravity. The 1926 thirteenth printing of the Encyclopedia Britannica introduced an article by Einstein titled “space-time”. Wherever a significant amount of matter exists, it changes the geometry of spacetime. This happens in a curved shape of space-time that can be perceived as gravity. The white lines on the photo used by scientists do not represent the curvature of space, but rather represent the coordinate system forced on the curved spacetime which would be rectilinear (straight and uncurved) in a flat space-time wherever there is no mass.In classical mechanics, the use of spacetime is arbitrary, as time is free of mechanical movement in the three dimensions of Euclidean space. When a body is traveling at velocities close to the speed of light (relativistic speeds), time cannot be isolated from the three dimensions of space as time later depends on how close to the speed of light the thing is traveling.