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E=MC2

The Wikipedia page for E=MC2 provides an in-depth explanation of Albert Einstein's famous equation and its significance in the field of physics. The equation, E=MC2, expresses the equivalence of energy (E) and mass (M) and relates them to the speed of light (C), which is a fundamental constant.

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The equation, E=MC2, expresses the equivalence of energy (E) and mass (M) and relates them to the speed of light (C), which is a fundamental constant. The page delves into the historical background leading up to the development of the equation, including Einstein's work on the theory of relativity and previous notions about the conservation of energy and mass. The page explains how E=MC2 revolutionized our understanding of the physical world by showing that energy and mass are interchangeable and can be converted into each other. It describes the various implications and applications of the equation, such as in nuclear reactions, atomic energy, and the mass-energy equivalence principle. The page also examines the equation's significance within the wider context of physics, including its influence on the development of quantum mechanics and the theory of the Big Bang. Furthermore, the Wikipedia page delves into the mathematical aspects of E=MC2, providing equations and formulas related to the equation's derivation and its usage in different contexts. It discusses the units used to represent energy, mass, and the speed of light, and how these units are related in the equation. Additionally, the page addresses common misconceptions and popular references to E=MC2, such as its relation to the possibility of time travel or the ability to extract limitless energy from small amounts of matter. It highlights the importance of understanding the equation within the framework of the theory of relativity and its limitations. Overall, the Wikipedia page on E=MC2 presents a comprehensive overview of the equation, including its historical background, theoretical foundations, mathematical implications, and its impact on the field of physics.

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