HandWiki:Physics

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Handwiki physics.svg Physics

Physics is the natural science that studies matter, energy and force.

It also studies motion and behavior of matter in space and time. Physics is one of the most fundamental scientific disciplines, and its main goal is to understand how the universe behaves. [Add article].



List of Categories

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Main topics

  1. Accelerometers
  2. Acoustics
  3. Aerodynamics
  4. Airspeed
  5. Anomalies in physics
  6. Antimatter
  7. Applied and interdisciplinary physics
  8. Asymmetry
  9. Ballistics
  10. Baryons
  11. Beam engines
  12. Binding energy
  13. Bose–Einstein condensates
  14. Bose–Einstein statistics
  15. Bubbles (physics)
  16. Calcium channels
  17. Calorimetry
  18. Charge carriers
  19. Chirality
  20. Chromatography
  21. Classical field theory
  22. Classical mechanics
  23. Cold
  24. Concepts in physics
  25. Condensed matter physics
  26. Continuum mechanics
  27. Cooling technology
  28. Cosmic rays
  29. Cosmic-ray experiments
  30. Critical phenomena
  31. Cryogenics
  32. Crystal systems
  33. Crystallography
  34. Dating methods
  35. Density
  36. Determinism
  37. Deuterated compounds
  38. Deuterated solvents
  39. Diamond simulants
  40. Dichotomies
  41. Doppler effects
  42. Dosimeters
  43. Drag (physics)
  44. Dye-sensitized solar cells
  45. Dynamics (mechanics)
  46. Elasticity (physics)
  47. Element toxicology
  48. Energy
  49. Energy (physics)
  50. Enthalpy
  51. Entropy
  52. Exactly solvable models
  53. Exotic matter
  54. Experimental physics
  55. Experiments for dark matter search
  56. Extreme ultraviolet
  57. Fermi–Dirac statistics
  58. Field theory
  59. Filter frequency response
  60. Flow regimes
  61. Fluid dynamic instability
  62. Fluid dynamics
  63. Fluid mechanics
  64. Fluorescence
  65. Fluorescence techniques
  66. Force
  67. Forms of energy
  68. Forms of water
  69. Four-vectors
  70. Frames of reference
  71. Fundamental constants
  72. Fundamental physics concepts
  73. Gamma rays
  74. Glass physics
  75. Glossary of classical physics
  76. Grand Unified Theory
  77. Gravimetry
  78. Gravimetry of objects
  79. Gravity
  80. Hall effect
  81. Hamiltonian mechanics
  82. Heat transfer
  83. Heating
  84. Helium
  85. History of physics
  86. Holography
  87. Hydrogen physics
  88. Hydrogen storage
  89. Hydrogen technologies
  90. Hypothetical nuclei
  91. Hysteresis
  92. Infrared
  93. Infrared imaging
  94. Insulators
  95. Interference
  96. Interferometers
  97. Interferometry
  98. Introductory physics
  99. Josephson effect
  100. Kinematics
  101. Kinetic energy
  102. Lagrangian mechanics
  103. Laser gain media
  104. Laser machining
  105. Laser medicine
  106. Laser science
  107. Laser types
  108. Lasers
  109. Lattice models
  110. Lenses
  111. Light
  112. Light sources
  113. Lightning
  114. Liquid helium
  115. Luminescence
  116. Magnetohydrodynamics
  117. Manhattan Project
  118. Mass
  119. Materials science
  120. Materials testing
  121. Matter
  122. Maxwell–Boltzmann statistics
  123. Mechanics
  124. Mesoscopic physics
  125. Metal detecting
  126. Microfluidics
  127. Microscopy
  128. Microwave bands
  129. Nanomaterials
  130. Nanotechnology
  131. Noise
  132. Non-Newtonian fluids
  133. Nucleosynthesis
  134. Onium
  135. Orders of magnitude (time)
  136. Oscillators
  137. Pendulums
  138. Phases of matter
  139. Phosphors and scintillators
  140. Photochemistry
  141. Photodetectors
  142. Photometry
  143. Photonics
  144. Photovoltaics
  145. Physical bodies
  146. Physical chemistry
  147. Physical constants
  148. Physical models
  149. Physical objects
  150. Physical paradoxes
  151. Physical phenomena
  152. Physical properties
  153. Physical quantities
  154. Physical quantity
  155. Physical sciences
  156. Physical systems
  157. Physics
  158. Physics books
  159. Physics experiments
  160. Physics theorems
  161. Physics timelines
  162. Physics-related lists
  163. Plasma instabilities
  164. Plasma physics
  165. Plasticity (physics)
  166. Plutonium
  167. Poisson point processes
  168. Polymer physics
  169. Polymorphism (materials science)
  170. Positron emitters
  171. Potential theory
  172. Potentials
  173. Power (physics)
  174. Power laws
  175. Pressure
  176. Proton
  177. Radar signal processing
  178. Radar theory
  179. Rainbow colors
  180. Reflective building components
  181. Rheology
  182. Richard Feynman
  183. Rigid bodies
  184. Rigid bodies mechanics
  185. Scanning probe microscopy
  186. Science of photography
  187. Scientific laws
  188. Shock waves
  189. Soft matter
  190. Solar cells
  191. Solid mechanics
  192. Sound
  193. Sound measurements
  194. Space
  195. Spacetime
  196. Spin models
  197. Spinning
  198. Spinors
  199. Spintronics
  200. Springs (mechanical)
  201. Statistical ensembles
  202. Statistical field theories
  203. Statistical mechanics
  204. Statistical mechanics theorems
  205. String theory
  206. Structural analysis
  207. Subfields of physics
  208. Surface science
  209. Suspected male-mediated teratogens
  210. Synchrotron-related techniques
  211. Tachyons
  212. Temperature
  213. Temporal paradoxes
  214. Temporal rates
  215. Theorems in dynamical systems
  216. Theorems in mathematical physics
  217. Theoretical physics
  218. Theories by Albert Einstein
  219. Thermochemistry
  220. Thin films
  221. Thought experiments in physics
  222. Threshold temperatures
  223. Tidal forces
  224. Time
  225. Time in physics
  226. Time measurement systems
  227. Time scales
  228. Time travel
  229. Tokamaks
  230. Tomography
  231. Transport phenomena
  232. Tribology
  233. Turbulence
  234. Turbulence models
  235. Types of magnets
  236. Ultrasound
  237. Underground laboratories
  238. Unsolved problems in physics
  239. Vacuum
  240. Velocity
  241. Viscosity
  242. Vortices
  243. Water physics
  244. Water waves
  245. Wave mechanics
  246. Waves in plasmas
  247. X-rays
  248. Yield criteria

Thermodynamics

  1. Branches of thermodynamics
  2. Dimensionless numbers of thermodynamics
  3. Laws of thermodynamics
  4. Non-equilibrium thermodynamics
  5. Thermodynamic cycles
  6. Thermodynamic entropy
  7. Thermodynamic equations
  8. Thermodynamic free energy
  9. Thermodynamic models
  10. Thermodynamic processes
  11. Thermodynamic properties
  12. Thermodynamic systems
  13. Thermodynamics

Optics

  1. Atomic, molecular, and optical physics
  2. Electro-optical materials
  3. Geometrical optics
  4. Magneto-optic effects
  5. Nonimaging optics
  6. Nonlinear optical materials
  7. Nonlinear optics
  8. Optical components
  9. Optical devices
  10. Optical filters
  11. Optical illusions
  12. Optical instruments
  13. Optical materials
  14. Optical phenomena
  15. Optical spectrum
  16. Optics
  17. Physical optics
  18. Quantum optics
  19. Scattering, absorption and radiative transfer (optics)

Relativity

  1. Coordinate charts in general relativity
  2. Exact solutions in general relativity
  3. General relativity
  4. Relativistic paradoxes
  5. Relativity
  6. Special relativity
  7. Tensors in general relativity
  8. Tests of general relativity
  9. Theorems in general relativity
  10. Theory of relativity

Electricity and Magnetism

  1. Battery (electricity)
  2. Computational electromagnetics
  3. Correlated electrons
  4. Electric and magnetic fields in matter
  5. Electric charge
  6. Electric current
  7. Electric power
  8. Electrical parameters
  9. Electrical phenomena
  10. Electrical resistance and conductance
  11. Electricity
  12. Electro-optical materials
  13. Electroanalytical methods
  14. Electrochemistry
  15. Electrodes
  16. Electrodynamics
  17. Electrolysis
  18. Electromagnetic radiation
  19. Electromagnetic spectrum
  20. Electromagnetism
  21. Electron
  22. Electron beam
  23. Electron microscopy
  24. Electron paramagnetic resonance
  25. Electron spectroscopy
  26. Electron states
  27. Electronic band structures
  28. Electrostatics
  29. Electroweak theory
  30. Ferromagnetic materials
  31. Free-electron lasers
  32. Geomagnetism
  33. II-VI semiconductors
  34. Magnetic devices
  35. Magnetic levitation
  36. Magnetic monopoles
  37. Magnetic ordering
  38. Magnetic resonance imaging
  39. Magnetism
  40. Magnetostatics
  41. Nuclear magnetic resonance
  42. Nuclear magnetic resonance spectroscopy
  43. Photoelectrochemistry
  44. Quantum electrodynamics
  45. Quantum electronics
  46. Quantum magnetism
  47. Radio frequency propagation
  48. Radio modulation modes
  49. Radio spectrum
  50. Radio technology
  51. Radioactive contamination
  52. Radioactivity
  53. Radiochemistry
  54. Radiography
  55. Radioisotope fuels
  56. Radiology
  57. Radiometric dating
  58. Radiometry
  59. Semiconductor growth
  60. Semiconductor materials
  61. Semiconductor structures
  62. Semiconductors
  63. Superconducting detectors
  64. Superconductivity
  65. Superconductors
  66. Thermoelectricity
  67. Units of electrical capacitance
  68. Units of electrical charge
  69. Units of electrical potential
  70. Voltage
  71. Voltage stability

Molecular and Atomic Physics

  1. Absorption spectroscopy
  2. Acceleration
  3. Acoustic equations
  4. Action (physics)
  5. Adamantane-like molecules
  6. Atomic clocks
  7. Atomic physics
  8. Atomic, molecular, and optical physics
  9. Atoms
  10. Cations
  11. Collision
  12. Combustion
  13. Computational electromagnetics
  14. Computational fluid dynamics
  15. Computational physics
  16. Conservation laws
  17. Convection
  18. Deformation (mechanics)
  19. Diatomic molecules
  20. Diffraction
  21. Diffusion
  22. Dimensionless numbers of fluid mechanics
  23. Dimensionless numbers of thermodynamics
  24. Dirac equation
  25. Effects of gravitation
  26. Electromagnetic radiation
  27. Electron spectroscopy
  28. Emission spectroscopy
  29. Energy conservation
  30. Energy conversion
  31. Equations of fluid dynamics
  32. Equations of physics
  33. Equations of state
  34. Exact solutions in general relativity
  35. Exotic atoms
  36. Fermions
  37. Foundational quantum physics
  38. Fractionation
  39. Friction
  40. Functions of space and time
  41. Fusion power
  42. Fusion reactors
  43. Gas discharge lamps
  44. Gas laws
  45. Gas technologies
  46. Gases
  47. Gravitational
  48. Gravitational instruments
  49. Gravitational lensing
  50. Gravitational waves
  51. Heat conduction
  52. Hypervalent molecules
  53. Ideal gas
  54. Infrared spectroscopy
  55. Interaction
  56. Intermolecular forces
  57. Interpretations of quantum mechanics
  58. Ion source
  59. Ionising radiation detectors
  60. Ionization
  61. Ionizing radiation
  62. Ions
  63. Isotope separation
  64. Laser applications
  65. Levitation
  66. Linear motion
  67. Magnetic levitation
  68. Mass spectrometry
  69. Mathematical quantization
  70. Maxwell's equations
  71. Mechanical vibrations
  72. Microwave transmission
  73. Molar quantities
  74. Molecular dynamics
  75. Molecular geometry
  76. Molecular imaging
  77. Molecular machines
  78. Molecular modelling
  79. Molecular physics
  80. Molecular topology
  81. Molecular vibration
  82. Molecules
  83. Motion (physics)
  84. Nanoparticles by composition
  85. Neutron instrumentation
  86. Nuclear fusion
  87. Nuclear fusion fuels
  88. Nuclear magnetic resonance spectroscopy
  89. Optical illusions
  90. Pauli exclusion principle
  91. Phase transitions
  92. Polarization (waves)
  93. Precession
  94. Proposed fusion reactors
  95. Radiation
  96. Radiation effects
  97. Radiation protection
  98. Radio frequency propagation
  99. Radio modulation modes
  100. Radioactive contamination
  101. Refraction
  102. Renormalization group
  103. Scattering, absorption and radiative transfer (optics)
  104. Schrödinger equation
  105. Spectrometers
  106. Spectroscopy
  107. State functions
  108. Strangeness production
  109. Subatomic particles
  110. Synchrotron radiation
  111. Theories of gravitation
  112. Thermal protection
  113. Thermodynamic equations
  114. Thin film deposition
  115. Triatomic molecules
  116. Ultraviolet radiation
  117. Units of acceleration
  118. Units of radiation dose
  119. X-ray instrumentation
  120. X-ray spectroscopy

Quantum Physics

  1. Foundational quantum physics
  2. Interpretations of quantum mechanics
  3. Loop quantum gravity
  4. Quantum Lattice models
  5. Quantum Monte Carlo
  6. Quantum chaos theory
  7. Quantum chromodynamics
  8. Quantum complexity theory
  9. Quantum dots
  10. Quantum electrodynamics
  11. Quantum electronics
  12. Quantum field theory
  13. Quantum gravity
  14. Quantum magnetism
  15. Quantum measurement
  16. Quantum mechanical entropy
  17. Quantum mechanics
  18. Quantum models
  19. Quantum numbers
  20. Quantum optics
  21. Quantum phases
  22. Quantum states
  23. Theorems in quantum mechanics
  24. Theorems in quantum physics
  25. Thought experiments in quantum mechanics

Nuclear and Particle Physics

  1. Accelerator neutrino experiments
  2. Accelerator physics
  3. B physics
  4. Bosons
  5. CERN accelerators
  6. CERN experiments
  7. Correlated electrons
  8. Electromagnetic radiation
  9. Electron
  10. Electron beam
  11. Electron microscopy
  12. Electron paramagnetic resonance
  13. Electron spectroscopy
  14. Electron states
  15. Electronic band structures
  16. Electroweak theory
  17. Elementary particles
  18. Environmental isotopes
  19. Experimental particle physics
  20. Fast-neutron reactors
  21. Fermilab
  22. Fermilab experiments
  23. Flavour (particle physics)
  24. Free-electron lasers
  25. Gauge bosons
  26. Gauge theories
  27. Gluons
  28. Hadrons
  29. Hypothetical composite particles
  30. Hypothetical elementary particles
  31. Hypothetical particles
  32. Ionising radiation detectors
  33. Ionizing radiation
  34. Isotopes
  35. Isotopes of actinium
  36. Isotopes of aluminium
  37. Isotopes of americium
  38. Isotopes of antimony
  39. Isotopes of argon
  40. Isotopes of arsenic
  41. Isotopes of astatine
  42. Isotopes of barium
  43. Isotopes of berkelium
  44. Isotopes of beryllium
  45. Isotopes of bismuth
  46. Isotopes of bohrium
  47. Isotopes of boron
  48. Isotopes of bromine
  49. Isotopes of cadmium
  50. Isotopes of caesium
  51. Isotopes of calcium
  52. Isotopes of californium
  53. Isotopes of carbon
  54. Isotopes of cerium
  55. Isotopes of chlorine
  56. Isotopes of chromium
  57. Isotopes of cobalt
  58. Isotopes of copernicium
  59. Isotopes of copper
  60. Isotopes of curium
  61. Isotopes of darmstadtium
  62. Isotopes of dubnium
  63. Isotopes of dysprosium
  64. Isotopes of einsteinium
  65. Isotopes of erbium
  66. Isotopes of europium
  67. Isotopes of fermium
  68. Isotopes of flerovium
  69. Isotopes of fluorine
  70. Isotopes of francium
  71. Isotopes of gadolinium
  72. Isotopes of gallium
  73. Isotopes of germanium
  74. Isotopes of gold
  75. Isotopes of hafnium
  76. Isotopes of hassium
  77. Isotopes of helium
  78. Isotopes of heliumHelium-03
  79. Isotopes of holmium
  80. Isotopes of hydrogen
  81. Isotopes of indium
  82. Isotopes of iodine
  83. Isotopes of iridium
  84. Isotopes of iron
  85. Isotopes of krypton
  86. Isotopes of lanthanum
  87. Isotopes of lawrencium
  88. Isotopes of lead
  89. Isotopes of lithium
  90. Isotopes of livermorium
  91. Isotopes of lutetium
  92. Isotopes of magnesium
  93. Isotopes of manganese
  94. Isotopes of meitnerium
  95. Isotopes of mendelevium
  96. Isotopes of mercury
  97. Isotopes of molybdenum
  98. Isotopes of moscovium
  99. Isotopes of neodymium
  100. Isotopes of neon
  101. Isotopes of neptunium
  102. Isotopes of neutronium
  103. Isotopes of neutroniumNeutronium-4
  104. Isotopes of nickel
  105. Isotopes of nihonium
  106. Isotopes of niobium
  107. Isotopes of nitrogen
  108. Isotopes of nobelium
  109. Isotopes of oganesson
  110. Isotopes of osmium
  111. Isotopes of oxygen
  112. Isotopes of palladium
  113. Isotopes of phosphorus
  114. Isotopes of platinum
  115. Isotopes of plutonium
  116. Isotopes of polonium
  117. Isotopes of potassium
  118. Isotopes of praseodymium
  119. Isotopes of promethium
  120. Isotopes of protactinium
  121. Isotopes of radium
  122. Isotopes of radon
  123. Isotopes of rhenium
  124. Isotopes of rhodium
  125. Isotopes of roentgenium
  126. Isotopes of rubidium
  127. Isotopes of ruthenium
  128. Isotopes of rutherfordium
  129. Isotopes of samarium
  130. Isotopes of scandium
  131. Isotopes of seaborgium
  132. Isotopes of selenium
  133. Isotopes of silicon
  134. Isotopes of silver
  135. Isotopes of sodium
  136. Isotopes of strontium
  137. Isotopes of sulfur
  138. Isotopes of tantalum
  139. Isotopes of technetium
  140. Isotopes of tellurium
  141. Isotopes of tennessine
  142. Isotopes of terbium
  143. Isotopes of thallium
  144. Isotopes of thorium
  145. Isotopes of thulium
  146. Isotopes of tin
  147. Isotopes of titanium
  148. Isotopes of tungsten
  149. Isotopes of uranium
  150. Isotopes of vanadium
  151. Isotopes of xenon
  152. Isotopes of ytterbium
  153. Isotopes of yttrium
  154. Isotopes of zinc
  155. Isotopes of zirconium
  156. Isotopes of zirconiumZirconium-089
  157. Large Hadron Collider
  158. Leptons
  159. Lists of isotopes by element
  160. Medical isotopes
  161. Mesons
  162. Metastable isotopes
  163. Nanoparticles
  164. Nanoparticles by composition
  165. Neutrino experiments
  166. Neutrinos
  167. Neutron
  168. Neutron facilities
  169. Neutron instrumentation
  170. Neutron moderators
  171. Neutron scattering
  172. Neutron sources
  173. Neutron-related techniques
  174. Nuclear chemistry
  175. Nuclear energy
  176. Nuclear explosives
  177. Nuclear fuels
  178. Nuclear fusion
  179. Nuclear fusion fuels
  180. Nuclear magnetic resonance
  181. Nuclear magnetic resonance spectroscopy
  182. Nuclear physics
  183. Nuclear reprocessing
  184. Nuclear research reactors
  185. Nuclear safety and security
  186. Nucleons
  187. Particle accelerators
  188. Particle detectors
  189. Particle experiments
  190. Particle physics
  191. Particle statistics
  192. Photons
  193. Physics beyond the Standard Model
  194. Proposed particle accelerators
  195. Quantum electronics
  196. Quark matter
  197. Quarks
  198. Quasiparticles
  199. Radiation
  200. Radiation effects
  201. Radiation protection
  202. Radioactivity
  203. Radioisotope fuels
  204. Reactor neutrino experiments
  205. Scattering
  206. Scattering theory
  207. Scattering, absorption and radiative transfer (optics)
  208. Small-angle scattering
  209. Special nuclear materials
  210. Standard Model
  211. Strangeness production
  212. Subatomic particles
  213. Supersymmetry
  214. Synchrotron radiation
  215. Ultraviolet radiation
  216. Units of radiation dose
  217. X-ray scattering

Units in Physics

  1. Customary units of measurement
  2. Equivalent units
  3. Imperial units
  4. Natural units
  5. Planck units
  6. Systems of units
  7. Units of acceleration
  8. Units of electrical capacitance
  9. Units of electrical charge
  10. Units of electrical potential
  11. Units of energy
  12. Units of flow
  13. Units of force
  14. Units of frequency
  15. Units of luminance
  16. Units of luminous energy
  17. Units of luminous flux
  18. Units of mass
  19. Units of pressure
  20. Units of radiation dose
  21. Units of temperature
  22. Units of time
  23. Units of velocity
  24. Units of volume

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