![]() Many counterintuitive consequences emerge: in addition to being independent of the motion of the light source, the speed of light is constant regardless of the frame of reference in which it is measured the distances and even temporal ordering of pairs of events change when measured in different inertial frames of reference (this is the relativity of simultaneity) and the linear additivity of velocities no longer holds true.Įinstein framed his theory in terms of kinematics (the study of moving bodies). The logical consequence of taking these postulates together is the inseparable joining of the four dimensions-hitherto assumed as independent-of space and time. The speed of light in a vacuum is the same for all observers, regardless of the motion of the light source.The laws of physics are invariant (i.e., identical) in all inertial systems (i.e., non-accelerating frames of reference).However, in 1905, Einstein based a work on special relativity on two postulates: Prior to his pioneering work, scientists had two separate theories to explain physical phenomena: Isaac Newton's laws of physics described the motion of massive objects, while James Clerk Maxwell's electromagnetic models explained the properties of light. ![]() The physicist Albert Einstein helped develop the idea of spacetime as part of his theory of relativity. Until the 20th century, it was assumed that the three-dimensional geometry of the universe (its spatial expression in terms of coordinates, distances, and directions) was independent of one-dimensional time. Spacetime diagrams can be used to visualize relativistic effects, such as why different observers perceive differently where and when events occur. In physics, spacetime is a mathematical model that combines the three dimensions of space and one dimension of time into a single four-dimensional manifold.
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