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.

The Dirac Equation describes fields corresponding to elementary spin-½ particles (such as the electron) as a vector of four complex numbers (a bispinor), in contrast to the Schrödinger equation which described a field of only one complex value.

The Dirac Equation describes fields corresponding to elementary spin-½ particles (such as the electron) as a vector of four complex numbers (a bispinor), in contrast to the Schrödinger equation which described a field of only one complex value.

One equation brings together the two cornerstones of modern physics: quantum mechanics and relativity

The most beautiful equation is… The Dirac equation

One equation brings together the two cornerstones of modern physics: quantum mechanics and relativity

What is DIRAC EQUATION? What does DIRAC EQUATION mean? DIRAC EQUATION meaning & explanation - YouTube

What is DIRAC EQUATION? What does DIRAC EQUATION mean? DIRAC EQUATION meaning & explanation - YouTube

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.

Stylised Dirac Equation (Credit: Stellario Cama)

The most beautiful equation is… The Dirac equation

The quantum mechanical description of the world is incomplete as the Schrödinger equation is not Lorentz invariant and therefore fails to describe relativistic particles. Including special relativity into the frame of quantum mechanics leads to Dirac's equation which is Lorentz invariant but has yet another problem.

The quantum mechanical description of the world is incomplete as the Schrödinger equation is not Lorentz invariant and therefore fails to describe relativistic particles. Including special relativity into the frame of quantum mechanics leads to Dirac's equation which is Lorentz invariant but has yet another problem.

Supersymmetric Dirac Equation, The: The Application To Hydrogenic Atoms

Supersymmetric Dirac Equation, The: The Application To Hydrogenic Atoms

Nonlinear Dirac Equation, Magnetic Monopoles and Double Space-time

Nonlinear Dirac Equation, Magnetic Monopoles and Double Space-time (Hardcover)

Nonlinear Dirac Equation, Magnetic Monopoles and Double Space-time

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