Publisher's Note

Editor's Introduction

Contributors

Aberrations

Absorption

Accuracy and precision

Alpha radiation

Amplitude

Angular forces

Angular momentum

Antenna

Arago dot

Aperture

Archimedes’s principle

Band theory of solids

Bernoulli’s principle

Beta radiation

Blackbody radiation

Bohr atom

Bose condensation

Bra-ket notation

British thermal unit (BTU)

Calculating system efficiency

Circular motion

Closed systems and isolated systems

Concave and convex

Conservation of charge

Conservation of energy

Convection and conduction

Cosmic radiation

Crest and trough

Density and specific gravity

Diode

Distance and area

Distortion

Doppler effect

Dynamic systems theory

Edison effect

Eigenvectors

Elastic and inelastic collisions

Electric circuits: Parallel vs series, diagrams and components

Electric potential

Energy and power

Enthalpy

Entropy

Euler’s laws of motion

Falling bodies and physics

Faraday’s law

Feynman diagrams

Flywheel

Focal point

Free body diagram

Frequency

Gamma radiation

Gauss’s law

Gluon

Gravitational potential energy

Harmonic oscillator

Harmonics

Heisenberg uncertainty principle

Higgs boson

Horsepower

Ideal gas law

Joule

Kepler’s laws

Kilowatt-hour

Kinetic and potential energy

Lenz’s law

Light waves

Linear motion

Load

Loudness and sound intensity

Magnification

Mass and weight

Mass spectrometry

Mechanical or electrical load and work

Mössbauer effect

Net force

Newton-meter

Normal force

Nuclear fission, fusion, and mass defect

Open systems

Particle accelerators

Particle detectors

Phase

Phonon

Photon

Pitch

Planck’s constant

Potential energy

Power

Prisms

Projectiles

Psychophysics

Quantum chromodynamics

Quantum field theory

Quantum mechanics

Quantum statistics

Quarks

Radians and degrees

Radiation

Resonance: Nuclear magnetic resonance and electron spin resonance

Revolutions per minute (rpm)

Simple, linear, and complex systems

Simple machines and mechanical advantage

Solenoid

Sound amplitude

Speed

Springs

String theory

Strong nuclear force

Superconductors

Switches

Symmetry

Système International (SI) Units

Temperature and internal energy

Term symbol

Torque

Turbines

Ultrasound

Ultraviolet radiation

Velocity of sound

Velocity vs. speed

Volume and capacity

Watt

Wavelength

Wave properties

Weak force

Work and force

Work-energy theorem

X-ray radiation

Appendices

The Standard Model

Nobel Notes: Sub-atomic and Sub-nuclear Physics

Nobel Laureates

Pre-Nobel Notables

Physics Constants

Physics Laws

Glossary

Bibliography