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The equation was discovered in the late 1920s by physicist Paul Dirac. It remains highly influential. It brought together two of the most important ideas in science: quantum mechanics, which describes the behaviour of tiny objects; and Einstein's special theory of relativity, which describes the behaviour of fast-moving objects. As a result, Dirac's equation describes how particles like electrons behave when they travel close to the speed of light.

The most beautiful equation is… The Dirac equation

The equation was discovered in the late 1920s by physicist Paul Dirac. It remains highly influential. It brought together two of the most important ideas in science: quantum mechanics, which describes the behaviour of tiny objects; and Einstein's special theory of relativity, which describes the behaviour of fast-moving objects. As a result, Dirac's equation describes how particles like electrons behave when they travel close to the speed of light.

Unification Theory: In particle physics, an attempt to describe all fundamental forces and the relationships between elementary particles in terms of a single theoretical framework.

Unification Theory: In particle physics, an attempt to describe all fundamental forces and the relationships between elementary particles in terms of a single theoretical framework.

The equations are: The equations of motion, Heisenberg's Uncertainty Principle, the equation to describe a Mobius strip, Maxwell's Equations, Special Relativity, General Relativity, Mass-Energy Equivalence (E = mc^2), Logistic Map (standard example of chaos theory), time-dependent Schrödinger equation, Stellar Luminosity, Newton's Second Law, Newton's Law of Universal Gravitation, the Dirac Equation, and Quantum Entanglement

The equations are: The equations of motion, Heisenberg's Uncertainty Principle, the equation to describe a Mobius strip, Maxwell's Equations, Special Relativity, General Relativity, Mass-Energy Equivalence (E = mc^2), Logistic Map (standard example of chaos theory), time-dependent Schrödinger equation, Stellar Luminosity, Newton's Second Law, Newton's Law of Universal Gravitation, the Dirac Equation, and Quantum Entanglement

Paul A.M. Dirac mathematical equation. casts off the old, embraces the new mechanics of Heisenberg, Pauli, Jordan, Schrödinger

Paul A.M. Dirac mathematical equation. casts off the old, embraces the new mechanics of Heisenberg, Pauli, Jordan, Schrödinger

Distribution of Dirac points with their associated topological charges along the first BZ for (a) graphene P1, (c) Ru3-reversed graphene P2, (e) Ru3 Ru1-reversed graphene P3, (g) Ru1-reversed graphene P4, (i) Π-flux P5 and (k) non-Abelian point α = β ≪ 1. Contour plot of the energy bands for (b) graphene P1, (d) Ru3-reversed graphene P2, (f) Ru3 Ru1-reversed graphene P3, (h) Ru1-reversed graphene P4, (i) Π-flux P5 and (l) non-Abelian point α = β ≪ 1.

Distribution of Dirac points with their associated topological charges along the first BZ for (a) graphene P1, (c) Ru3-reversed graphene P2, (e) Ru3 Ru1-reversed graphene P3, (g) Ru1-reversed graphene P4, (i) Π-flux P5 and (k) non-Abelian point α = β ≪ 1. Contour plot of the energy bands for (b) graphene P1, (d) Ru3-reversed graphene P2, (f) Ru3 Ru1-reversed graphene P3, (h) Ru1-reversed graphene P4, (i) Π-flux P5 and (l) non-Abelian point α = β ≪ 1.

Esa es parte de la ecuación de Dirac. Gracias a esto, se describe el fenómeno de entrelazamiento cuántico.

Esa es parte de la ecuación de Dirac. Gracias a esto, se describe el fenómeno de entrelazamiento cuántico.

The equation was discovered in the late 1920s by physicist Paul Dirac. It remains highly influential. It brought together two of the most important ideas in science: quantum mechanics, which describes the behaviour of tiny objects; and Einstein's special theory of relativity, which describes the behaviour of fast-moving objects. As a result, Dirac's equation describes how particles like electrons behave when they travel close to the speed of light.

The most beautiful equation is… The Dirac equation

The equation was discovered in the late 1920s by physicist Paul Dirac. It remains highly influential. It brought together two of the most important ideas in science: quantum mechanics, which describes the behaviour of tiny objects; and Einstein's special theory of relativity, which describes the behaviour of fast-moving objects. As a result, Dirac's equation describes how particles like electrons behave when they travel close to the speed of light.

Plain Dirac for body text (Credit: Stellario Cama). The Dirac equation predicted the existence of antimatter

The most beautiful equation is… The Dirac equation

Plain Dirac for body text (Credit: Stellario Cama). The Dirac equation predicted the existence of antimatter

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