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Ross Arden
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Is the Theorey of relativity that there is no absolute movement, only movement of one frame relative to another or that there is absolute movement but we cannot measure it ?
Ross Arden said:Is the Theorey of relativity that there is no absolute movement, only movement of one frame relative to another or that there is absolute movement but we cannot measure it ?
Ross Arden said:surely the assumption can credibly be made that one of them must be moving in an absolute sense
The theory of relativity is a scientific theory developed by Albert Einstein in the early 20th century. It explains the relationship between space and time, and how they are affected by gravity. There are two main parts of the theory: the special theory of relativity, which deals with objects moving at a constant speed, and the general theory of relativity, which includes the effects of gravity on space and time.
The special theory of relativity deals with objects moving at a constant speed, while the general theory of relativity includes the effects of gravity on space and time. The special theory of relativity also introduces the concept of time dilation, where time appears to pass slower for objects moving at high speeds. The general theory of relativity explains how gravity is not a force, but rather the curvature of space and time caused by massive objects.
Albert Einstein developed the theory of relativity through a series of thought experiments and mathematical equations. He was inspired by the work of other scientists, such as James Clerk Maxwell and Isaac Newton, and the concept of the constancy of the speed of light. He also conducted experiments and observations that supported his theories, such as the bending of starlight by the sun's gravity during a solar eclipse.
The theory of relativity has had a significant impact on our understanding of the universe and has led to many technological advancements, such as GPS systems and nuclear energy. It also challenges our traditional concepts of space, time, and gravity, and has opened up new avenues for research and exploration in the fields of physics and astronomy.
The theory of relativity has been extensively tested and confirmed through experiments and observations. However, like all scientific theories, it is subject to further testing and refinement. It has also been successfully used to make accurate predictions, such as the bending of light by gravity and the existence of black holes. Overall, the evidence strongly supports the validity of the theory of relativity.