Theoretical Physics Cheat Sheet

The core ideas of Theoretical Physics distilled into a single, scannable reference — perfect for review or quick lookup.

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Quick Reference

Quantum Mechanics

The fundamental theory describing nature at the smallest scales, where energy, momentum, and other quantities are quantized. It replaces deterministic classical mechanics with probabilistic wave functions governed by the Schr\u00f6dinger equation.

General Relativity

Einstein's geometric theory of gravitation, which describes gravity not as a force but as the curvature of spacetime caused by mass and energy. It is expressed through the Einstein field equations relating spacetime geometry to the energy-momentum tensor.

Special Relativity

Einstein's 1905 theory establishing that the laws of physics are identical in all inertial reference frames and that the speed of light in vacuum is constant for all observers. It leads to time dilation, length contraction, and the equivalence of mass and energy ($E = mc^2$).

Quantum Field Theory (QFT)

A theoretical framework that combines quantum mechanics with special relativity, treating particles as excited states (quanta) of underlying fields. It provides the mathematical language for the Standard Model of particle physics.

The Standard Model

The theoretical framework classifying all known elementary particles and describing three of the four fundamental forces (electromagnetic, weak nuclear, and strong nuclear) through gauge symmetries. It does not include gravity.

String Theory

A candidate theory of quantum gravity proposing that the fundamental constituents of the universe are not point particles but one-dimensional vibrating strings. Different vibrational modes correspond to different particles. It requires extra spatial dimensions beyond the three we observe.

Symmetry and Conservation Laws

Noether's theorem establishes a deep connection between continuous symmetries of a physical system and conserved quantities. Every differentiable symmetry of the action of a physical system corresponds to a conservation law.

Wave-Particle Duality

The principle that every quantum entity exhibits both wave-like and particle-like properties. Whether it behaves as a wave or particle depends on the experimental setup used to observe it.

Spacetime

The four-dimensional continuum combining three spatial dimensions with one time dimension into a single geometric entity. In general relativity, spacetime is dynamic: it curves in response to mass-energy and tells matter how to move.

The Uncertainty Principle

Heisenberg's principle stating that certain pairs of physical properties, such as position and momentum, cannot both be known to arbitrary precision simultaneously. Expressed as $\Delta x \cdot \Delta p \geq \frac{\hbar}{2}$. This is not a limitation of measurement but a fundamental property of nature.

Key Terms at a Glance

Antiparticle:A particle with the same mass as its corresponding matter particle but opposite charge and quantum numbers.

Boson:A particle with integer spin that mediates forces between fermions. Examples include photons, gluons, W/Z bosons, and the Higgs boson.

Conservation Law:A principle stating that a particular measurable property of an isolated physical system does not change over time.

Dark Energy:The unknown energy driving the accelerating expansion of the universe, constituting approximately 68% of total energy content.

Dark Matter:Non-luminous matter inferred from gravitational effects, comprising approximately 27% of the universe's mass-energy content.

Dirac Equation:The relativistic wave equation for spin-$\frac{1}{2}$ particles such as electrons. Predicted the existence of antimatter.

Eigenstate:A quantum state in which a particular observable has a definite value. Measurement of that observable will yield the corresponding eigenvalue with certainty.

Event Horizon:The boundary of a black hole beyond which events cannot affect an outside observer. The point of no return for matter and light.

Fermion:A particle with half-integer spin that obeys the Pauli exclusion principle. Includes quarks and leptons, the building blocks of matter.

Gauge Boson:A force-carrying particle arising from gauge symmetry. The photon, gluons, and W/Z bosons are gauge bosons.

Geodesic:The shortest or extremal path between two points in curved spacetime. Free-falling objects follow geodesics.

Graviton:The hypothetical quantum of the gravitational field, predicted to be a massless spin-2 boson. Not yet detected.

Lagrangian:A function summarizing the dynamics of a system, equal to kinetic energy minus potential energy. Central to modern theoretical physics and the principle of least action.

Lepton:A class of elementary fermions that do not experience the strong nuclear force. Includes electrons, muons, taus, and their associated neutrinos.

Lorentz Transformation:Mathematical equations relating the space and time coordinates of two observers moving at constant velocity relative to each other in special relativity.

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