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ijwakeel
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I have read Albert Einstien theory of relativity and I don't quite understand what he is trying to say state. Can someone please shed some light so that I can understand what he is trying to convey?
I never heard of Albert Einstien--who is he?ijwakeel said:I have read Albert Einstien theory of relativity and I don't quite understand what he is trying to say state. Can someone please shed some light so that I can understand what he is trying to convey?
ijwakeel said:I have read Albert Einstien theory of relativity and I don't quite understand what he is trying to say state. Can someone please shed some light so that I can understand what he is trying to convey?
ijwakeel said:I apologize for the miss guided way that I miss spelled his name. I hadn't realized it until now. However, the topic is meant to try to clarify the concept that he was trying to convey. I'm not asking for the entire thing just a brief over view that's all.
Einstein's Theory on Relativity is a set of two theories, the Special Theory of Relativity and the General Theory of Relativity, that were developed by Albert Einstein in the early 20th century to explain the laws of motion and gravity in the universe.
The Special Theory of Relativity deals with objects moving at a constant velocity, while the General Theory of Relativity includes the effects of gravity on objects in motion. Special Relativity also includes the famous equation E=mc², while General Relativity explains the curvature of space-time caused by massive objects.
Einstein developed the Theory of Relativity through a combination of thought experiments and mathematical equations. He was inspired by the idea that the laws of physics should be the same for all observers, regardless of their relative motion.
The Theory of Relativity has been verified by numerous experiments and has had a significant impact on modern physics and technology. Some real-life applications include GPS systems, nuclear energy, and the understanding of black holes.
Yes, the Theory of Relativity is still very relevant today and is considered one of the cornerstones of modern physics. It has been tested and verified countless times and continues to be used in various fields such as astronomy, particle physics, and cosmology.