Special Relativity

12 formulas

Lorentz Factor
Special Relativity
Modern Physics

The factor by which time, length, and relativistic mass change for a moving object.

Time Dilation
Special Relativity
Modern Physics

Moving clocks run slower. Time measured in the rest frame is shorter than time measured by a moving observer.

Length Contraction
Special Relativity
Modern Physics

Moving objects are shortened in the direction of motion as measured by a stationary observer.

Relativistic Momentum
Special Relativity
Modern Physics

Momentum in special relativity, which increases without bound as velocity approaches c.

Mass-Energy Equivalence
Special Relativity
Modern Physics

The most famous equation in physics. Mass and energy are equivalent and interconvertible.

Relativistic Total Energy
Special Relativity
Modern Physics

The total energy of a moving particle, including rest energy and kinetic energy.

Relativistic Kinetic Energy
Special Relativity
Modern Physics

Kinetic energy in special relativity. Reduces to ½mv² at low velocities.

Energy-Momentum Relation
Special Relativity
Modern Physics

Relates energy, momentum, and mass. For massless particles (photons): E = pc.

Relativistic Velocity Addition
Special Relativity
Modern Physics

How velocities add in special relativity. Ensures no velocity exceeds c.

Relativistic Doppler Effect
Special Relativity
Modern Physics

The relativistic formula for frequency shift due to relative motion. For approaching sources (v negative), frequency increases (blueshift). For receding sources (v positive), frequency decreases (redshift).

Proper Time
Special Relativity
Modern Physics

Proper time is the time measured by a clock moving with the object. It is always shorter than coordinate time measured by a stationary observer.

Relativity of Simultaneity
Special Relativity
Modern Physics

Events that are simultaneous in one frame may not be simultaneous in another. Two events separated in space will have different time separations in different reference frames.

Quantum Mechanics

14 formulas

Photon Energy (Planck)
Quantum Mechanics
Modern Physics

Energy of a photon is proportional to its frequency. Foundation of quantum theory.

Photoelectric Effect
Quantum Mechanics
Modern Physics

Maximum kinetic energy of ejected electrons equals photon energy minus the work function.

Stopping Potential
Quantum Mechanics
Modern Physics

The minimum potential needed to stop the most energetic photoelectrons.

de Broglie Wavelength
Quantum Mechanics
Modern Physics

All matter has wave-like properties. The wavelength is inversely proportional to momentum.

Heisenberg Uncertainty Principle
Quantum Mechanics
Modern Physics

Position and momentum cannot both be precisely known. Fundamental limit of measurement.

Energy-Time Uncertainty
Quantum Mechanics
Modern Physics

Energy and time cannot both be precisely determined. Related to spectral line widths.

Time-Dependent Schrödinger Equation
Quantum Mechanics
Modern Physics

The fundamental equation of quantum mechanics describing how quantum states evolve in time.

Particle in a Box Energy Levels
Quantum Mechanics
Modern Physics

Quantized energy levels for a particle confined to a one-dimensional infinite potential well.

Compton Scattering
Quantum Mechanics
Modern Physics

Wavelength shift of photons scattered by electrons. Confirms particle nature of light.

Photon Momentum
Quantum Mechanics
Modern Physics

Photons carry momentum despite having no rest mass. This is key to understanding radiation pressure and Compton scattering.

Fermi Energy
Quantum Mechanics
Modern Physics

The highest occupied energy level at absolute zero for a system of fermions. Crucial for understanding metals, white dwarfs, and neutron stars.

Photoelectric Threshold Frequency
Quantum Mechanics
Modern Physics

The minimum frequency of light required to eject electrons from a material. Below this frequency, no photoelectric effect occurs regardless of intensity.

Bragg's Law
Quantum Mechanics
Modern Physics

Condition for constructive interference in X-ray diffraction from crystal planes. Used to determine crystal structures and to create X-ray spectrometers.

Electron Wavelength (Accelerated)
Quantum Mechanics
Modern Physics

Wavelength of an electron accelerated through potential V. Used in electron microscopy and diffraction experiments.

Search within Modern Physics

Filter this category by variable, equation, concept, or unit.

Loading category search...