User:Yakudza/sandbox


 * Alder reaction
 * Allred electronegativity
 * Amadori rearrangement
 * Arbuzov reaction
 * Archibald method
 * Arndt synthesis
 * Arrhenius complex
 * Arrhenius parameters
 * Arrhenius equation
 * Arrhenius modified equation
 * Auger effect
 * Auger electron
 * Auger spectroscopy
 * Auger yield
 * Avogadro constant
 * Avogadro law
 * Avrami equation
 * Bäcklund reaction
 * Backlund transformation
 * Baeyer oxidation
 * Baeyer synthesis
 * Baeyer strain
 * Baker effect
 * Bakshi reduction
 * Baldwin rule
 * Balmer series
 * Balz reaction
 * Bamford reaction
 * Bart reaction
 * Barton synthesis
 * Barton reaction
 * Baudisch reaction
 * Bauer reaction
 * Baumann reaction
 * Baylis reaction
 * Bechamp reduction
 * Bechgaard salts
 * Beckmann rearrangement
 * Beer law
 * Bell principle
 * Bents rule
 * BEP principle
 * Bergman reaction
 * Bergs synthesis
 * Berry mechanism
 * Berry pseudorotation
 * Biginelli reaction
 * Bingham flow
 * Birch reaction
 * Birch reduction
 * Birnbaum transformation
 * Bischler reaction
 * Bjerrum equation
 * Blanc reduction
 * Blodgett film
 * Bodenstein approximation
 * Bohr atom
 * Bohr magneton
 * Bohr radius
 * Boltzmann constant
 * Boltzmann equation
 * Boltzmann factor
 * Boltzmann constant
 * Boltzmann model
 * Boltzmann distribution
 * Born forces
 * Born cycle
 * Born equation
 * Born approximation
 * Borns equation
 * Borsche transformation
 * Bouveault reduction
 * Boyle law
 * Boyle law
 * Bragg equation
 * Braun cleavage
 * Braun reaction
 * Braun principle
 * Bredt rule
 * Briggs reaction
 * Bronsted acid
 * Bronsted base
 * Bronsted exponent
 * Bronsted relation
 * Brooks structure
 * Brownian motion
 * Brunner reaction
 * Bucherer reaction
 * Bucherer synthesis
 * Buchwald reduction
 * Buchwald reaction
 * Buckingham potential
 * Bueche reaction
 * Bunnett equation
 * Bunte salts
 * Burk plot
 * Cadiot reaction
 * Cahn system
 * Cailletet law
 * Mathias law
 * Cannizzaro disproportionation
 * Caratheodory principle
 * Carnot cycle
 * Carnot principle
 * Carroll rearrangement
 * Castro coupling
 * Celsius temperature
 * Cerenkov effect
 * Chalmers effect
 * Chapman rearrangement
 * Chapman model
 * Charles law
 * Chichibabin synthesis
 * Chodkiewicz reaction
 * Claisen condensation
 * Claisen rearrangement
 * Claisen condensation
 * Claisen reaction
 * Clapeyron equation
 * Clapeyron law
 * Clausius equation
 * Clausius equation
 * Clemmensen reduction
 * Closs rule
 * Collins oxidation
 * Coltrin path
 * Compton effect
 * Compton electron
 * Condon principle
 * Cope rearrangement
 * Corey oxidation
 * Corey oxidation
 * Corey oxidation
 * Corey reduction
 * Cotton effect
 * Cottrell equation
 * Coulomb forces
 * Coulomb integral
 * Coulomb law
 * Cox equation
 * Crafts acylation
 * Crafts alkylation
 * Cram rule
 * Curie point
 * Curie temperature
 * Curie law
 * Curtin principle
 * Dalton theory
 * Dalton law
 * Danheiser transposition
 * Daniel cell
 * Darzens reaction
 * Davydov splitting
 * de Broglie wave
 * Debye equation
 * Decker oxidation
 * Delepine reaction
 * Demyanov reaction
 * Dess oxidation
 * Dexter transfer
 * Dieckmann reaction
 * Diels reaction
 * Dimroth rearrangement
 * Dimroth Et parameter
 * Dimroth parameter
 * Dobson unit
 * Donnan equilibrium*
 * Donnan potential
 * Donnan pressure
 * Doppler broading
 * Dorn effect
 * Dorn potential
 * Dötz reaction
 * Drago equation
 * Duff reaction
 * Duhem equation
 * Duhem relation
 * Dulong law
 * Dulong rule
 * Eastwood reaction
 * Edman degradation
 * Edwards equation
 * Eigen mechanism
 * Einhorn reaction
 * Einstein equation
 * Einstein law
 * Eistert synthesis
 * Erlenmeyer rule
 * Eschenmoser reaction
 * Esin coefficient
 * Etard reaction
 * Evans principle
 * Evans reaction
 * Evans equation
 * Eyring equation
 * Eyring method
 * Fahrenheit scale
 * Fajans rule
 * Faradaic current
 * Faradaic density
 * Faradaic reaction
 * Faradaic current
 * Faraday constant
 * Faraday number
 * Faraday laws
 * Favorsky rearrangements
 * Feling reagent
 * Fenton reaction
 * Fenton reagent
 * Fenton degradation
 * Fermi energy
 * Fermi hole
 * Fermi level
 * Fermi resonance
 * Fetizon oxidation
 * Fick laws
 * Fischer E.
 * Fischer projections
 * Fischer reaction
 * Fischer synthesis
 * Fisher rearrangement
 * Fisher-type carbene complex
 * Flade potential
 * Flory point
 * Flory theory
 * Fock method
 * Forster cycle
 * Forster transfer
 * Forster reaction
 * Franck principle
 * Frenkel defects
 * Friedel acylation
 * Friedel alkylation
 * Fries rearrangement
 * Fries photo-rearrangement
 * Frumkin effect
 * Gabriel reaction
 * Galvani potential
 * Gattermann reaction
 * Gay law
 * Gibbs adsorption
 * Gibbs adsorption equation
 * Gibbs energy
 * Gibbs diagram
 * Gibbs activation
 * Gibbs repulsion
 * Gibbs equation
 * Gibbs equation
 * Gibbs elasticity
 * Gibbs energy formation
 * Gibbs profile
 * Gibbs function
 * Gibbs rule
 * Gibbs relation
 * Gibbs surface
 * Gibbs interfacial energy
 * Gibbs partial energy
 * Gibbs energy activation
 * Gibbs excess energy
 * Gouy layer
 * Gouy model
 * Graham equation
 * Graham law
 * Gram stain
 * Grignard reaction
 * Grignard reagent
 * Grunwald equation
 * Haber process
 * Haber cycle
 * Haber reaction
 * Hall index
 * Haller reaction
 * Hammett hypothesis
 * Hammett equation
 * Hammett equation extended
 * Hammett principle
 * Hammond effect
 * Hammond principle
 * Hansch analysis
 * Hansch constant
 * Hansen parameter
 * Hansh equation
 * Hantzsch reaction
 * Hardys rule
 * Harries reaction
 * Hartree-Fock method
 * Hartree method
 * Hartwig reaction
 * Hasselbach equation
 * Haworth formula
 * Haworth representation
 * Heck reaction
 * Hedvall effect
 * Hell reaction
 * Helmholtz energy
 * Helmholtz equation
 * Helmholtz energy
 * Helmholtz model
 * Helmholtz energy
 * Helmholtz outer plane
 * Helmholtz energy
 * Henderson equation
 * Henry reaction
 * Henry law
 * Hepp rearrangement
 * Herz compound
 * Hessian matrix
 * Hess law
 * Hildenbrand parameter
 * Hillman reaction
 * Hine effect
 * Hinsberg transformation
 * Hinshelwood kinetics
 * Hinshelwood mechanism
 * Hittorf method
 * Hiyama reaction
 * Hoffmann rule
 * Hofmann degradation
 * Hofmann reaction
 * Hofmann rearrangment
 * Hofmann rule
 * Hofmeister serie
 * Hosomi reaction
 * Houwink equation
 * Huckel equation
 * Huckel rule
 * Huckel system
 * Huckel equation
 * Hückel method
 * Huggins equation
 * Huggins theory
 * Hund rule
 * Hush relationship
 * Ilkovic equation
 * Ingold system
 * Irving series
 * Jablonski diagram
 * Jacobsen epoxidation
 * Jahn effect
 * Jahn theorem
 * Japp reaction
 * Jencks diagram
 * Jones oxidation
 * Jones potential
 * Joule effect
 * Joule law
 * Juriev reaction
 * Kamlet parameters
 * Kaptein rule
 * Kapustinsky equation
 * Kasha rule
 * Kasha rule
 * Kassel theory
 * Kassel theory
 * Kekule structures
 * Kelvin scale
 * Kepert model
 * Khand reaction
 * Kier index
 * Kim oxidation
 * Kirchhoff equation
 * Kirchhoff law
 * Kishner reduction
 * Klingemann reaction
 * Knoevenagel condensation
 * Kohlrausch law
 * Kohn orbitals
 * Kolbe synthesis
 * Kolbe reaction
 * Konowaloff laws
 * Koopmans theorem
 * Koppel parameters
 * Kopp rule
 * Kosower Z-value
 * Kovats index
 * Krapcho decarboxylation
 * Kratky chain
 * Krebs cycle
 * Kroenke reaction
 * Kucherov reaction
 * Ladenburg rearrangement
 * Laidler equation
 * Lambert law
 * Lambert law
 * Landau model
 * Lande equation
 * Langelier index
 * Langmuir isotherm
 * Langmuir equation
 * Langmuir film
 * Langmuir kinetics
 * Langmuir mechanism
 * Langmuir mechanism
 * Laporte rule
 * Laves principle of
 * Le Chatelier principle
 * Leffler equation
 * Leffler assumption
 * Lennard potential
 * Letts synthesis
 * Leuckart reaction
 * Leuckart reaction
 * Lewis acid
 * Lewis acidity
 * Lewis adduct
 * Lewis base
 * Lewis basicity
 * Lewis formula
 * Lewis structure
 * Lewis symbol
 * Lewis equation
 * Lewis law
 * Lineweaver plot
 * Lippman equation
 * London forces
 * London method
 * Lorentz theory
 * Lorentzian band
 * Loschmidt number
 * Lossen rearrangement
 * Lupton equation
 * Lupton parameters
 * Lussac law
 * Lyman series
 * Macleods equation
 * Madelung constant
 * Madelung synthesis
 * Mangelsdorf method
 * Mannich bases
 * Mannich reaction
 * Marangoni effect
 * Marcus equation
 * Marcus path
 * Marcus relationship
 * Marcus theory
 * Margules relation
 * Mariotte law
 * Mark rearrangement
 * Mark equation
 * Markov coefficient
 * Markownikoff addition
 * Markownikoff rule
 * Markush structure
 * Martin oxidation
 * Martius rearrangment
 * Mayers relation
 * Mayo equation
 * McFadyen reaction
 * McLafferty rearrangement
 * Meerwein reaction
 * Meerwein reaction
 * Meerwein reduction
 * Meisenheimer adduct
 * Meisenheimer complex
 * Meisenheimer compound
 * Mendeleyev law
 * Menshutkin reaction
 * Menten kinetics
 * Menten mechanism
 * Merrifield method
 * Merrifield synthesis
 * Meyer reaction
 * Meyer rearrangement
 * Michael reaction
 * Michaelis complex
 * Michaelis constant
 * Michaelis kinetics
 * Michaelis mechanism
 * Michaelis reaction
 * Mie scattering
 * Mie theory
 * Mitsunobu reaction
 * Moebius aromaticity
 * Moebius system
 * Moffatt oxidation
 * Moffatt oxidation
 * MØller theory
 * Moore cyclization
 * More O'Ferral diagram
 * Morin transition
 * Morse curve
 * Mosotti equation
 * Mossbauer effect
 * Mott transition
 * Mukaiyama addition
 * Mukaiyama reaction
 * Mukaiyama reaction
 * Mulliken electronegativity
 * Mulliken analysis
 * Mulliken scale
 * Myelin cylinders
 * Myers cyclization
 * Napieralski reaction
 * Nathan effect
 * Natta catalyst
 * Neber rearrangement
 * Nef reaction
 * Nenitzescu acylation
 * Nernst equation
 * Nernstian response
 * Nernsts layer
 * Nesmeianov reaction
 * Nessler reagent
 * Newman formula
 * Newton film
 * Newton diagram
 * Newtonian fluid
 * Newtonian viscosity
 * Newtonian non- fluid
 * Nicholas reaction
 * Norish photoreaction
 * Norish photoreaction
 * Normant reaction
 * Noyori hydrogenation
 * Nozaki reaction
 * Ohm Law
 * Olsen equation
 * Onsager relations
 * Oppenauer oxidation
 * Oppenheimer approximation
 * Orton rearrangement
 * Ostwald law
 * Ostwald process
 * Ostwald ripening
 * Overhauser effect
 * Overman rearrangement
 * Pallmann effect
 * Palm parameters
 * Parham cyclization
 * Pariser method
 * Parr method
 * Paschen series
 * Passerini reaction
 * Pasteurs method
 * Paterno reaction
 * Pauli principle
 * Pauling electronegativity
 * Pauling scale
 * Pauling relationship
 * Pauson reaction
 * Payne rearrangement
 * Pearson rearrangement
 * Peierls transition
 * Perkin reaction
 * Perkin reaction
 * Peterson olefination
 * Petit rule
 * Petits law
 * Petrenko-Kritschenko synthesis
 * Pfeiffer rule
 * Pfitzner oxidation
 * Pictet reaction
 * Piloty reaction
 * Piloty synthesis
 * Pinner reaction
 * Pistchimuca reaction
 * Pitzer strain
 * Plank constant
 * Plesset perturbation theory
 * Poincare section
 * Poisson distribution
 * Poisson equation
 * Poisson model
 * Polanyi principle
 * Polanyi equation
 * Polanyi method
 * Polanyi equation
 * Polonovski reaction
 * Ponndorf reduction
 * Pople method
 * Porod chain
 * Porter rearrangement
 * Prelog system
 * Prelog rule
 * Prelog strain
 * Prevost reaction
 * Prilezhaev reaction
 * Prins reaction
 * Pummerer rearrangement
 * Pummerer rearrangement
 * Radziszewski reaction
 * Raman effect
 * Raman spectroscopy
 * Raman spectrum
 * Ramberg reaction
 * Ramberg transformation
 * Ramsay equation
 * Ramsperger theory
 * Ramsperger theory
 * Randall law
 * Raoults law
 * Raschig reaction
 * Rauscher reaction
 * Rayleigh ratio
 * Rayleigh scattering
 * Reddelien synthesis
 * Reed reaction
 * Reformatsky reaction
 * Reichardt parameter
 * Reichardt normalized
 * Reimer reaction
 * Reimschneider synthesis
 * Reissert compound
 * Reissert reaction
 * Renner effect
 * Renner effect
 * Reppe reaction
 * Rice theory
 * Rice theory
 * Rideal mechanism
 * Ringelman chart
 * Ritchi equation
 * Ritter reaction
 * Robinson annulation
 * Rochow electronegativity
 * Rothemund reaction
 * Rubottom oxidation
 * Ruff degradation
 * Ruzicka synthesis
 * Rydberg constant
 * Rydberg orbital
 * Rydberg state
 * Rydberg transition
 * Sabatier reaction
 * Sackure constant
 * Saegusa oxidation
 * Sakurai reaction
 * Sandmeyer reaction
 * Sarett oxidation
 * Sato method
 * Saytzeffs rule
 * Schenck mechanism
 * Schiemann reaction
 * Schiff bases
 * Schiff reaction
 * Schillern layers
 * Schleyer adamantization
 * Schmidt reaction
 * Schmidt rearrangement
 * Schmidt condensation
 * Schmidt oxidation
 * Schmidt reaction
 * Schmidt rule
 * Schmitt reaction
 * Scholl reaction
 * Schorygin reaction
 * Schotten reaction
 * Schottky defects
 * Schrock carbene
 * Schrodinger time equation
 * Schulz distribution
 * Schulze rule
 * Schuster rearrangement
 * Scott equation
 * Semenov equation
 * Senderen reaction
 * Serini transformation
 * Sham orbitals
 * Shapiro reaction
 * Sharpless dihydroxylation
 * Sharpless epoxidation
 * Sharpless oxyamination
 * Shibata reduction
 * Shild equation
 * Silber rearrangement
 * Simonini transformation
 * Slater determinant
 * Slater orbital
 * Slater rule
 * Slater orbital
 * Smiles rearrangement
 * Sommelet synthesis
 * Spengler reaction
 * Stark broadening
 * Stark effect
 * Stark shift
 * Staudinger reaction
 * Stefan constant
 * Stephen reaction
 * Stephens coupling
 * Stern equation
 * Stern layer
 * Stern relationships
 * Stevens rearrangement
 * Stevens reaction
 * Stevens reaction
 * Stille coupling
 * Stille reaction
 * Stokes law
 * Stokes number
 * Stokes radiation
 * Stokes radius
 * Stokes shift
 * Stork reaction
 * Stork transposition
 * Suarez fragmentation
 * Suarez reaction
 * Sugano diagram
 * Sugasawa reaction
 * Suggs oxidation
 * Suzuki reaction
 * Svedberg coefficient
 * Swain equation
 * Swain equation
 * Swain parameters
 * Swarts reaction
 * Swern oxidation
 * Szilard effect
 * Taft equation
 * Taft parameter (Es)
 * Taft parameters
 * Tanabe diagram
 * Taylor structure
 * Tchitchibabin reaction
 * Tebbe olefination
 * Teller effect
 * Teller effect
 * Teller theorem
 * Tetrode constant
 * Thomson effect
 * Thorpe reaction
 * Tiemann reaction
 * Tiemann rearrangement
 * Tishchenko disproportionation
 * Tishchenko reaction
 * Tollens projections
 * Tollens reaction
 * Topliss scheme
 * Traube rule
 * Troger base
 * Tropsch synthesis
 * Trost allylatіon
 * Trost desymmetrіzatіon
 * Tsuno equation
 * Tung distribution
 * Tyndall effect
 * Ugi reaction
 * Ullmann reaction
 * Urech reaction
 * van der Waals bond
 * van der Waals broading
 * van der Waals complex
 * van der Waals equation
 * van der Waals forces
 * van der Waals isotherm
 * van der Waals radius
 * van't Hoff complex
 * van't Hoff equation
 * van't Hoff isobar
 * van't Hoff isochore
 * van't Hoff rule
 * Varrentrapp cleavage
 * Vavilov rule
 * Verley reduction
 * Verwey transition
 * Villiger reaction
 * Volhardt reaction
 * Volmer equation
 * Volmer relationships
 * Volta potential difference
 * Von Auwers rearrangement
 * Vorbrüggen glycosylation
 * Wacker oxidation
 * Wade rule
 * Wagner reaction
 * Walden inversion
 * Walden rule
 * Wallach reaction
 * Wallach reaction
 * Walsh rule
 * Wayland equation
 * Weerman degradation
 * Weiss law
 * Weiss reaction
 * Weller correlation
 * Werner theory
 * Wharton reaction
 * Wittig reaction
 * Wiegner effect
 * Wigner effect
 * Wigners rule
 * Wilkins mechanism
 * Willgerodt transformation
 * Williams series
 * Wilson approch
 * Wilzbach labelling
 * Winstein equation
 * Winstein mechanism
 * Wittig reagents
 * Wohl bromination
 * Wolff rearrangement
 * Wolff reduction
 * Woodward hydroxylation
 * Woodward reaction
 * Woodward rule
 * Wurtz reaction
 * Yates equation
 * Young modulus
 * Yukawa equation
 * Zeeman effect
 * Zelinsky reaction
 * Zener model
 * Ziegler reaction
 * Ziegler bromination
 * Ziegler catalyst
 * Ziegler reaction
 * Zimm distribution
 * Zucker hypothesis