Wikipedia:WikiProject Physics/Quality Control

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Physics articles by quality and importance Quality Importance Top High Mid Low NA ??? Total FA 12 19 24 7 62 FL 2 6 2 10 FM 63 63 A 1 1 GA 19 36 51 71 177 B 109 274 465 377 14 1,239 C 98 563 1,373 2,114 132 4,280 Start 1 404 2,713 6,920 2 542 10,582 Stub 636 5,128 116 5,880 List 5 28 93 168 1 6 301 Category 1,956 1,956 Disambig 123 123 File 89 89 Portal 14 14 Project 82 82 Redirect 1 118 374 1,812 2,305 Template 351 351 NA 5 5 Other 183 183 Assessed 247 1,324 5,480 15,161 4,681 810 27,703 Unassessed 1 3 76 80 Total 247 1,325 5,480 15,164 4,681 886 27,783 WikiWork factors (?) ω = 109,382 Ω = 4.92

Progress

Assessment	Assessed/Total	Percentage	Updated
Quality	21,926/21,926	100%	21:14, 13 January 2020 (UTC)
Importance	21,926/21,926	100%	21:14, 13 January 2020 (UTC)

• List of the 500 most popular physics pages, updated monthly.
• Recent changes to those pages

• All "top" and "high" importance have been re-assessed (by Headbomb only) 17:06, 15 June 2008 (UTC)[reply]
• All FA, GA, A class articles have been re-assessed (by Headbomb only) 17:06, 15 June 2008 (UTC)[reply]
• All B class articles have been re-assessed (by Headbomb only) 04:44, 17 June 2008 (UTC)[reply]
• Start-class articles # – C have been re-assessed (by Headbomb only) 05:57, 20 June 2008 (UTC)[reply]
• Start-class articles starting with letter B have been re-assessed by TStein 17 June, 2008 and by Headbomb 05:39, 20 June 2008 (UTC)[reply]
• Start-class articles starting with letter D have been re-assessed by TStein 20 June, 2008
• Searched unassessed articles (A-Z) for high and top importance articles. Added a number of high importance and 1 top importance articles using the new criteria. (by TStein only)
• Start class articles of unknown importance (A-E) have been given importance. Headbomb {ταλκ – WP Physics: PotW} 00:16, 12 July 2008 (UTC)[reply]
• Cleared Category:Pages within the scope of WikiProject Physics (WP Astronomy Banner) Headbomb {ταλκ – WP Physics: PotW} 05:21, 15 July 2008 (UTC)[reply]
• Start class articles of unknown importance (A-Z) have been given importance. (Timothy Rias and Headbomb?) (august 2008). (TimothyRias (talk) 09:53, 23 September 2008 (UTC))[reply]

• Assess the quality and importance of "unassessed" articles
• Re-assess the quality and importance of "Mid" and "Low" importance articles

Top: Fundamental and famous physics
High: Important or famous. Something an undergraduate physics major could have heard of or studied.
Mid: Cover articles that pretty much only people in the know heard about, while not being over-specialized.
Low: Everything else

• Top: People who made fundamental or very famous contributions to physics in general.

Examples:Einstein (foundation of special and general relativity), Curie (discovery of radioactivity), Bohr (Bohr's model), Rutherford (discovery of the nucleus), Chadwick (discovery of neutron), Feynman (foundation of quantum electrodynamics), Newton ('cause he was so damn cute), Galileo (invention of the telescope, amongst other things) , Copernicus (Copernican model), Kepler (Kepler's Laws), Maxwell (Maxwell's Equations)...

• High: People who made major or famous contributions within their field (usually, but not always, people with effects or experiments named after them).

Examples: Schottky, Faraday, all physics Nobel Prize laureates (other than those already in "Top") and those who won other Nobel prize that are physics related, ...

• Mid: Generally people who made important contributions to their fields who are recognized within their peers. All physicist who won major prizes or awards besides the Nobel Prize. All physicist who developed or invented widely used techniques within physics.

Examples: Hartree and Fock (Hartree-Fock method), Robert H. Dicke (lock-in amplifiers), Karl D. Swartzel Jr. (op-amps), ...

• Top: The Physics article, along with major divisions of theory (e.g., List of basic physics topics) and research:

Examples: Classical Electrodynamics, Classical Mechanics, Quantum Mechanics, General Relativity, Optics, Solid State Physics, Condensed matter physics, Atomic, molecular, and optical physics, Particle physics, Astrophysics, ...

Particle constituents of ordinary matter and light: Proton, neutron, electron, subatomic particle, elementary particle, quark and photon

• High: Important topics within "top importance fields":

Examples:

Classical Mechanics: torque, Centripetal force, Centrifugal force, Coriolis force, ...

Classical Electrodynamics: Electric Field, Magnetic Field, Lorentz Force, ...

Thermodynamics: Pressure, Enthalpy, Fermi-Dirac distribution, Bose-Einstein distribution...

Solid-state physics: Band theory, Crystallography, Doping, Diode, phonon, ...

Quantum field theory: Symmetry, Feynman diagrams, CPT invariance, ...

Physical Constants: Elementary charge, plank's constant, fine-structure constant, speed of light, ...

Elementary Particles: Leptons, force carriers, hadrons (baryons, mesons), atoms, neutrinos, the individual quarks, antimatter...

• Mid: Subdivisions of "high importance" physics categories:

Examples:

Crystallography: Bragg diffraction, Miller indices, Lattice, Reciprocal lattice...

Optics: Polarization, plane wave, nonlinear optics, Brewster's Angle, ...

Quantum Electrodynamics: Self-energy, Self-interaction, Yukawa potential,...

Particle physics: Most hypothetical elementary particles, most composite particles.

Quasiparticles: magnon, soliton, polaron, polariton, ...

• Low: Further subdivisions of fields, disproved or abandoned theories:

Examples:

Particle physics: hypothetical composite particles; hypothetical elementary particle which are not predicted by any currently mainstream theory (e.g. preon).

• Top: Famous experiments, first discoveries of major phenomena, first measurements of a fundamental constant (please update experimental physics accordingly).

Examples: Discovery of background radiation, Cavendish experiment, Rutherford experiment, Stern-Gerlach experiment, Michelson-Morley experiment, double-slit experiment ...

• High: Common undergraduate experiments, or important or famous industry methods:

Examples: Franck Hertz experiment, e/m experiment, Czochralski process, ...

• Mid: Typical experiments performed in "mid importance" topics, famous refinements to the measurements of a fundamental constant or properties of a material, well known industry methods:

Examples:

• Top: Important and well known theories:

Examples: Newton's Laws, Newton's law of universal gravitation, Maxwell's equations, Special Relativity, Standard model, Atomic Theory, ...

• High:

Examples: Ising Model, Band theory, Brownian motion, ...

• Mid:

Examples: Drude model, Sommerfeld model, Debye model, Einstein model

• Top: Key equations of top rated theories. Very well known equations.

Examples: E = mc²

• High: Major or famous equations:

Examples: Bernoulli's Principle, Archimedes' Principle

• Mid:

Examples:Drag equation

• Top: None
• High: Major or famous institutes and laboratories:

Examples: LHC, Fermilab, Bell Labs, Brookhaven National Laboratory, Los Alamos National Laboratory, ...

• Mid:

Examples:

• Top: None
• High: Famous landmark papers and publications.

Examples: Annus Mirabilis Papers, Newton's Principia, ...

• Mid:High impact physics journals. Books famous enough to be known by their author only to most of the physics community.

Examples: Jackson Electrodynamics, Landau and Lifshitz, Physical Review, ...

• Top: Very important instruments:

Examples: Laser, spectrograph, ...

• High: Important instruments

Examples: Multimeter, Cyclotron, Oscilloscope, Scale, ...

• Mid: Important instruments within specialized fields:

Examples: E-beam, Magnetic sensor, ...

• Top: fundamental or very famous physics and physics related topics

Examples: elementary charge, mass, force, momentum, energy, entropy ...

• Top: Important atoms:

Hydrogen atom (simplest), carbon (biochemistry), oxygen (breathing), silicon(electronics), uranium nuclear power

• Top: Top X visited sites

Examples: Most will also be represented already, but it is a good check

• High: * A list articles
• High: Major or famous phenomena:

Examples: Ultraviolet catastrophe, Cerenkov radiation, Interference, Why the sky is blue/Rayleigh Scattering, free-fall, refraction, black holes, gravitational lenses ...

• High: Common units

Examples: Those listed in the articles SI base units, SI derived units, and cgs, plus others such as electron volt, ...

• Mid:

Examples:

• Top: Lists of "fundamental" stuff:

Examples:List of physical constants

List of elementary particles

List of atoms

List of quasiparticles

• High: List of physicists.
• High: List of SI, cgs, and non-SI units approved by the BIPM.
• Mid:Lists of "important" stuff:

Examples:

List of material-specific constants

Lists of material-specific properties

Lists of isotopes by elements

The following highlights current issues. Feel free to either add the issues you've identified, or to strike them as they've been resolved.

WikiProject Physics' Reviewing Cheatsheet
Part of WikiProject Physics Quality Control

Do not remove the elements, but rather strike them as they becomes useless or irrelevant (i.e. write <s>text to be struck</s>) to indicate that this element was verified and found to be alright.
If everything in one of the section (i.e. everything in one hidden-box has been addressed), change the color of the section from "red" to "green".
This cheatsheet can be used by anyone.
To add the Reviewing Cheatsheet to an article's talk page, simply place {{subst:Wikipedia:WikiProject Physics/Quality Control/Reviewing Cheatsheet}} immediately before the first section.

Cheatsheet last updated by: (signature)