Annus Mirabilis papers
Einstein in 1904 or 1905, about the time he wrote the
Annus Mirabilis papers
The
Annus mirabilis papers ( from Latin
annus mīrābilis, "miracle year" ) are the four papers that Albert Einstein published in
Annalen der Physik (
Annals of Physics), a scientific journal, in 1905. These four papers were major contributions to the foundation of modern physics. They revolutionized science's understanding of the fundamental concepts of space, time, mass, and energy. Because Einstein published these remarkable papers in a single year, 1905 is called his
annus mirabilis (
miracle year in English or
Wunderjahr in German).
The first paper explained the photoelectric effect, which was the only specific discovery mentioned in the citation awarding Einstein the Nobel Prize in Physics. The second paper explained Brownian motion, which led reluctant physicists to accept the existence of atoms. The third paper introduced Einstein's theory of special relativity. The fourth, a consequence of the theory of special relativity, developed the principle of mass-energy equivalence, expressed in the famous equation
E = mc^2 and which led to the discovery and use of atomic energy. These four papers, together with quantum mechanics and Einstein's later theory of general relativity, are the foundation of modern physics.
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Special relativity
Main article: Special relativity
Einstein's paper in the original German, "Zur Elektrodynamik bewegter Körper",
Annalen der Physik, September 26, 1905.
Einstein's "Zur Elektrodynamik bewegter Körper" ("On the Electrodynamics of Moving Bodies), his third paper that year, was received on June 30 and published September 26. It reconciles Maxwell's equations for electricity and magnetism with the laws of mechanics by introducing major changes to mechanics close to the speed of light. This later became known as Einstein's special theory of relativity.
The paper mentions the names of only five other scientists: Isaac Newton, James Clerk Maxwell, Heinrich Hertz, Christian Doppler, and Hendrik Lorentz. It does not have any references to any other publications. Many of the ideas had already been published by others, as detailed in history of special relativity and relativity priority dispute. However, Einstein's paper introduces a theory of time, distance, mass, and energy that was consistent with electromagnetism, but omitted the force of gravity.
At the time, it was known that Maxwell's equations, when applied to moving bodies, led to asymmetries (moving magnet and conductor problem), and that it had not been possible to discover any motion of the Earth relative to the 'light medium' (i.e. aether). Einstein puts forward two postulates to explain these observations. First, he applies the principle of relativity, which states that the laws of physics remain the same for any non-accelerating frame of reference (called an inertial reference frame), to the laws of electrodynamics and optics as well as mechanics. In the second postulate, Einstein proposes that the speed of light has the same value in all frames of reference, independent of the state of motion of the emitting body.
Special relativity is thus consistent with the result of the MichelsonMorley experiment, which had not detected a medium of conductance (or aether) for light waves unlike other known waves that require a medium (such as water or air).
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