CA Index Guide (Appendix I) 1994
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Subject Headings 24–29
A publication of the Chemical Abstracts Service published by the American Chemical Society, and reproduced here with permission from the Chemical Abstracts Service.
24. Kinetics, Reaction
a Activation energy
* Evans-Polanyi equation
Catalysts and Catalysis
Entropy of activation
Free energy of activation
Kinetics of abstraction reaction
Kinetics of addition reaction
* Kinetics of acetalization
* Kinetics of acylation
* * Kinetics of biotinylation
* * Kinetics of carbonylation
* * Kineties of carboxylation
* * Kinetics of hydroformylation
* Kinetics of alkenylation
* * Kinetics of vinylation
* Kinetics of alkylation
* * Kinetics of cyanoethylation
* * Kinetics of Michael reaction
* * Kinetics of Prins reaction
* Kinetics of amination
b * Kinetics of halogenation
* * Kinetics of bromination
* * Kinetics of chlorination
* * Kinetics of fluorination
* * Kinetics of iodination
* (Kinetics of hydroaddition)
* * Kinetics of hydroboration
* * Kinetics of hydrocyanation
* * Kinetics of hydrohalogenation
* * * Kinetics of hydrobromination
* * * Kineties of hydrochlorination
* * * Kinetics of hydrofluorination
* * Kinetics of hydrometalation
* * * Kinetics of hydroalumination
* * Kinetics of hydrosilylation
* Kinetics of hydrogenation
* Kinetics of insertion reaction
* Kinetics of metalation
* * Kinetics of mercuration
* * Kinetics of oxymetalation
* * * Kinetics of oxymercuration
* (Kinetics of organo-metal addition)
c * * Kinetics of Grignard reaction
* * Kinetics of Reformatskii reaction
* (Kinetics of O-addition)
* * Kinetics of hydration
* * Kinetics of hydroxylation
* * Kineties of ozonization
* Kinetics of polymerization
* * Kinetics of crosslinking
* * * Kinetics of vulcanization
* * Kinetics of dimerization
* * Kinetics of telomerization
* * Kinetics of trimerization
* * Trommsdorf effect
* Kinetics of silylation
Kinetics of carbonization
Kinetics of cementation
* Kinetics of aluminizing
* Kinetics of boronizing
* Kinetics of carbonitridation
* Kinetics of carburization
* Kinetics of chromizing
d * Kinetics of nitridation
* Kinetics of sherardization
* Kinetics of siliconization
* Kinetics of sulfurization
Kinetics of chain transfer
Kinetics of chemisorption
Kinetics of color reactions
Kinetics of Maillard reaction
Kinetics of condensation reaction
* Kinetics of aldol condensation
* Kinetics of amidation
* * Kinetics of Merrifield synthesis
* Kinetics of amination
* Kinetics of coupling reaction
* * Kinetics of Kolbe's electrochemical reaction
* * Kinetics of recombination
* * Kinetics of Ullmann reaction
* Kinetics of esterification
* Kinetics of etherification
* Kinetics of imination
e * * Kinetics of oximation
* Kinetics of Knoevenagel reaction
* Kinetics of Mannich reaction
* Kinetics of Perkin reaction
* Kinetics of polymerization
* * Trommsdorf effect
* Kinetics of Wittig reaction
Kinetics of coordination
* Kinetics of aquation
* Kinetics of deaquation
Kinetics of decomposition
* Kinetics of carbonization
* Kinetics of cracking
* * Kinetics of dealkylation
* * Kinetics of hydrocracking
* Kinetics of decarbonylation
* Kinetics of decarboxylation
* Kinetics of depolymerization
* Kinetics of dissociation
* Kinetics of Edman degradation
f * Kinetics of electrolysis
* Kinetics of fragmentation reaction
* Kinetics of photolysis
* Kinetics of polymer degradation
* Kinetics of radiolysis
* Kinetics of thermal decomposition
Kinetics of desolvation
Kinetics of electron exchange
Kinetics of elimination reaction
* Kinetics of dehalogenation
* * Kinetics of debromination
* * Kinetics of dechlorination
* * Kinetics of deiodination
* Kinetics of dehydration
* (Kinetics of dehydroamination)
* * Kinetics of Hofmann degradation
* Kinetics of dehydrogenation
* Kinetics of dehydrohalogenation
* * Kinetics of dehydrobromination
* * Kinetics of dehydrochlorination
* * Kinetics of dehydrofluorination
g * Kinetics of deoxidation
* (Kinetics of retrogressive substitution)
* * Kinetics of deacylation
* * * Kinetics of deacetylation
* * * Kinetics of decarboxylation
* * Kinetics of dealkylation
* * * Kinetics of debenzylation
* * * Kinetics of demethylation
* * Kinetics of deamination
* * Kinetics of dehalogenation
* * * Kinetics of debromination
* * * Kinetics of dechlorination
* * * Kinetics of deiodination
* * Kinetics of dehydroxylation
* * Kinetics of demetalation
* * * Kinetics of demercuration
* * * Kinetics of dephosphorylation
* * * Kinetics of desulfurization
Kinetics of etching
Kinetics of graphitization
Kinetics of hot-atom reaction
h Kinetics of hydrogen transfer
* Kinetics of hydride shift
* Kinetics of hydride transfer
* Kinetics of hydrogen shift
* Kinetics of protonation
Kinetics of inclusion reaction
Kinetics of ionization
Kinetics of ion-molecule rection
Kinetics of isomerization
* Kinetics of allylic rearrangement
* Kinetics of hydride shift
* Kinetics of hydrogen shift
* (Kinetics of stereoisomerization)
* * Kinetics of epimerization
* * Kinetics of mutarotation
* * Kinetics of racemization
* Kinetics of tautomerization
Kinetics of leaching
Kinetics of neutralization
Kinetics of nitrification
Kinetics of passivation
i Kinetics of rearrangement
* Kinetics of Beckmann rearrangement
* Kinetics of Claisen rearrangement
* Kinetics of Cope rearrangement
* Kinetics of Curtius reaction
* Kinetics of Favorskii rearrangement
* Kinetics of fluxional rearrangement
* Kinetics of Fries rearrangement
* Kinetics of Pummerer reaction
* Kinetics of Schmidt reaction
* Kinetics of Stevens rearrangement
* Kinetics of Wagner-Meerwein rearrangenment
* Kinetics of Wolff rearrangement
Kinetics of redox reaction
* Kinetics of disproportionation
* * Kinetics of Cannizzaro reaction
* * Kinetics of double decomposition
* * Kinetics of redistribution reaction
* Kinetics of oscillating reaction
* Kinetics of oxidation
j * * Kinetics of ammoxidation
* * Kinetics of aromatization
* * Kinetics of combustion
* * * Kinetics of ignition
* * Kinetics of corrosion
* * * Kinetics of tarnishing
* * Kinetics of dehydrogenation
* * Kinetics of epoxidation
* * (Kinetics of oxidative substitution)
* * * Kinetics of ammoxidation
* * Kinetics of ozonization
* * Kinetics of peroxidation
* Kinetics of reduction
* * Kinetics of Birch reduction
* * Kinetics of deoxidation
* * Kinetics of hydrogenation
* * Kinetics of hydrogenolysis
* * Kinetics of methanation
* * Kinetics of nitrogen fixation
Kinetics of reforming
Kinetics of ring cleavage
k Kinetics of ring closure
* Kinetics of coordination
chelation
* Kinetics of cycloaddition reaction
* Kinetics of cyclocondensation reaction
* Kinetics of Dieckmann condensation
* Kinetics of Diels-Alder reaction
* Kinetics of Fischer indole synthesis
* Kinetics of lactonization
* Kinetics of Simmons-Smith reaction
Kinetics of ring contraction
Kinetics of ring enlargement
Kinetics of saccharification
Kinetics of solvation
Kinetics of solvolysis
* (Kinetics of acidolysis)
* * Kinetics of acetolysis
* * Kinetics of formolysis
* Kinetics of alcoholysis
* * Kinetics of ethanolysis
* * Kinetics of glycolysis
* * Kinetics of methanolysis
l * Kinetics of aminolysis
* Kinetics of ammonolysis
* Kinetics of hydrazinolysis
* Kinetics of hydrolysis
* * Kinetics of saponification
Kinetics of substitution reaction
* Kinetics of acylation
* * Kinetics of acetylation
* * Kinetics of alkoxycarbonylation
* * * Kinetics of methoxycarbonylation
* * Kinetics of aminoacylation
* * Kinetics of benzoylation
* * Kinetics of biotinylation
* * Kinetics of carbamoylation
* * Kinetics of carbonylation
* * Kinetics of carboxylation
* * Kinetics of formylation
* * * Kinetics of Vilsmeier reaction
* * Kinetics of Friedel-Crafts reaction
* Kinetics of alkenylation
m * * Kinetics of allylation
* * Kinetics of vinylation
* Kinetics of alkylation
* * Kinetics of aminoalkylation
* * Kinetics of aralkylation
* * * Kinetics of benzylation
* * Kinetics of butylation
* * Kinetics of tert-butylation
* * Kinetics of ethylation
* * * Kinetics of hydroxyethylation
* * Kinetics of Friedel-Crafts reaction
* * Kinetics of haloalkylation
* * Kinetics of hydroxyalkylation
* * Kinetics of isopropylation
* * Kinetics of methylation
* * * Kinetics of aminomethylation
* * * Kinetics of benzylation
* * * Kinetics of carboxymethylation
* * * Kinetics of halomethylation
* * * * Kinetics of chloromethylation
n * * * Kinetics of hydroxymethylation
* * Kinetics of transalkylation
* (Kinetics of alkylidenation)
* * Kinetics of methylenation
* Kinetics of alkynylation
* * Kinetics of ethynylation
* Kinetics of arylation
* * Kinetics of phenylation
* Kinetics of cyanation
* Kinetics of cycloalkylation
* Kinetics of deuteration
* Kinetics of diazotization
* Kinetics of esterification
* Kinetics of etherification
* * Kinetics of glycosidation
* Kinetics of exchange reaction
* Kinetics of halogenation
* * Kinetics of bromination
* * Kinetics of chlorination
* * * Kinetics of oxychlorination
* * Kinetics of fluorination
o * * Kinetics of iodination
* Kinetics of metalation
* * Kinetics of lithiation
* * Kinetics of mercuration
* (Kinetics of N-substitution)
* * Kinetics of amination
* * * Kinetics of ammoxidation
* * Kinetics of amidation
* * Kinetics of imination
* * Kinetics of nitration
* * Kinetics of nitrosation
* * Kinetics of quaternization
* * * Kinetics of Menshutkin reaction
* * Kinetics of transamination
* (Kinetics of O-substitution)
* * Kinetics of acetoxylation
* * Kinetics of alkoxylation
* * * Kinetics of ethoxylation
* * * Kinetics of methoxylation
* * Kinetics of hydroxylation
* (Kinetics of P-substitution)
* * Kinetics of Arbuzov reaction
* * Kinetics of phosphonylation
p * * Kinetics of phosphorylation
* Kinetics of silylation
* (Kinetics of S-substitution)
* * Kinetics of sulfation
* * Kinetics of sulfonation
* * Kinetics of sulfonylation
* * * Kinetics of chlorosulfonylation
* * Kinetics of sulfuration
* * Kinetics of sulfurization
* Kinetics of transesterification
* Kinetics of tritiation
Kinetics of water gas shift reaction
Mass action law
Sintering kinetics
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25. Lipids
a Annexins
Carotenes and Carotenoids
* Cerides (lipids)
Cerilipins
Cyanolipids
Fatty acids
* Eicosanoids
Glycerides
Glycolipids
* Galactolipids
* Glycophospholipids
* * Lysophosphatidalinositols
* * Lysophosphoinositides
* * * Lysophosphatidylinositols
* * Phosphatidalinositols
* * Phosphoinositides
* * * Phosphatidylinositols
* Glycosphingolipids
* * (Ceramide oligosaccharides)
* * * Gangliosides
* * * * Hematosides
b * * * Globosides
* * Cerebrosides
* * Gangliosides
* * * Hematosides
* * Sulfatides
* Lipopolysaccharides
* Sialoglycolipids
* * Gangliosides
* * * Hematosides
Lecithins
Lipochromes
Lipofuscins
Lysophospholipids
* Lysophosphatides
* * Lysocephalins
* * Lysophosphatidylcholines
* * Lysophosphatidylethanolamines
* * Lysophosphatidylglycerols
* * * Lysocardiolipins
* * Lysophosphoinositides
c * * * Lysophosphatidylinositols
* * Lysophosphatidylserines
* * Lysophosphatidylthreonines
* Lysophosphatidic acids
* Lysoplasmalogens
* * Lysophosphatidalcholines
* * Lysophosphatidalethanolamines
* * Lysophosphatidalinositols
* * Lysophosphatidalserines
* * Lysophosphatidalthreonines
Lysosulfolipids
Mucolipids
Phospholipids
* Phosphatides
* * Cephalins
* * Phosphatidylcholines
* * * Glycollecithins
* * Phosphatidylethanolamines
* * Phosphatidylglycerols
* * * Cardiolipins
d * * Phosphatidylpeptides
* * Phosphatidylserines
* * Phosphatidylthreonines
* * Phosphoinositides
* * * Phosphatidylinositols
* * Sphingomyelins
* Phosphatidic acids
* Plasmalogenic acids
* Plasmalogens
* * Phosphatidalcholines
* * Phosphatidalethanolamines
* * Phosphatidalinositols
* * Phosphatidalserines
* * Phosphatidalthreonines
Phosphonolipids
Plasmals
Sphingolipids
* Ceramides
* Cerebrins
* Glycosphingolipids
* * (Ceramide oligosaccharides)
e * * * Gangliosides
* * * * Hematosides
* * * Globosides
* * Cerebrosides
* * Gangliosides
* * * Hematosides
* * Sulfatides
Steroids
Sulfolipids
* Sulfatides
Terpenes and Terpenoids
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26. Living Systems, Processes, and Components
a Agriculture and Agricultural chemistry
[See Hierarchy 1]
Antagonism
Biological action
Biological materials
(Biological pigments)
[See Hierarchy 7]
Biota (ecological unit)
Cell
* Cell aging
* Cell differentiation
* Cell morphology
* Cell proliferation
* Organelle
[See Hierarchy 37]
Death
Ecology
* Environment
* * Adaptation
* * Atmosphere environmental
* * Climate
* * * Greenhouses
* * * * Hydroponics
* * Environmental modeling
b * * Weather
Enzymes
* Allosterism
* Coenzymes
* Cooperative phenomena
* Enzyme activation energy
* Enzyme functional sites
* Kinetics, enzymic
* * Michaelis constant
* Molecular association
* Ribozymes
* Zymogens
Eukaryote
* Animal
* * Animal cell
[See Hierarchy 3]
* * (Animal processes and phenomena)
[See Hierarchy 4]
* * Beebread
* * Body anatomical
[See Hierarchy 8]
* * Propolis
* Plant
[See Hierarchy 43]
Evolution
[See Hierarchy 18]
c Genetics
[See Hierarchy 18]
Hormones
[See Hierarchy 20]
Immunology
[See Hierarchy 21]
Life
Medicine
[See Hierarchy 30]
Metabolism
[See Hierarchy 31]
(Nutrition)
* Animal nutrition
* * Diet
* * Digestibility
* * Feed
[See Hierarchy 16]
* * Feeding
* * Feeding experiment
* * Feeding techniques
* * Food
[See Hierarchy 16]
* * Malnutrition
* * Nutrients
* * * Animal growth regulators
* * * * Bifidus factors
* * * Carbohydrates and Sugars
* * * Dietary energy
d * * * Dietary fiber
* * * Fats and Glyceridic oils
* * * Fat substitutes
* * * Feed energy
* * * Lipids
[See Hierarchy 25]
* * * Proteins
[See Hierarchy 48]
* * * Mineral elements
* * * Trace elements
* * * Vitamins
* * * * Liver extracts
* * Starvation
* * Thermogenesis, biological
* Microorganism nutrition
* Plant nutrition
* * Fertilizers
[See Hierarchy 53]
Pharmaceuticals
[See Hierarchy 41]
Photodynamic action
Prokaryote
* Microorganism
* * Acrasins
e * * Aversion factors
* * Bacteriocins
* * Culture media
* * Heterokaryosis
* * Luminescence, bio-
* * Microbial conjugation
* * Microbial virulence
* * Microorganism adaptation
* * Microorganism development
* * Microorganism growth
* * Oligodynamic action
* * Pacifarins
Soils
[See Hierarchy 53]
(Taxis)
* Chemotaxis
* * Chemotactic factors
* Galvanotaxis
* Magnetotaxis
* Phototaxis
Toxicology
[See Hierarchy 61]
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27. Magnetic Property
a Exchange quantum mechanical
* Kondo effect
Magnetic charge
* Anapole
* Magnetic monopole
* Magnetic moment
* * g-factor
* * Magneton
* * Nuclear magnetic moment
Magnetic field
* Electric transport property
* * Hall effect
* * * Photomagnetoelectric effect
* * Magnetophotoconductivity
* * Magnetoresistance
* * * De Haas-Shubnikov effect
* * * Magnetophonon resonance
* * Magnetothermoelectric effect
* * Tunneling
magneto-
* * * Magnetic breakdown
b * Energy level splitting
* * Zeeman effect
* Heat transfer
* * Magnetothermal effect
* * * Cooling
magnetic
* * * Senftleben effect
* * Thermomagnetic effect
* * * Nernst-Ettingshausen effect
* * * Righi-Leduc effect
* Magnetic analysis and testing
* Magnetic flux
* Magnetic hyperfine field
* * Screening, magnetic and nuclear
* Magnetic resonance
* * Cyclotron resonance
* * Electron spin resonance
* * * Electron nuclear double resonance
* * * Electron nuclear triple resonance
* * * Electron spin resonance
spectrometry
* * * Magnetic relaxation
c * * Optical double resonance
* * Nuclear magnetic resonance
* * * Atomic beam magnetic resonance
* * * Knight shift
* * * Magnetic relaxation
* * * Molecular beam magnetic resonance
* * * Nuclear magnetic resonance spectrometry
* * * Overhauser effect
* * * * Overhauser spectrometry
* * * Quadrupole relaxation
* Magnetoacoustic effect and resonance
* Magnetochemistry
* Magnetoelectric effect
* * Acoustomagnetoelectric effect
* * Piezomagnetoelectric effect
* Magnetomechanical effect
* * Magnetoelasticity
* * * Magnetomechanical damping
* * Magnetostriction
* * Magnetovolume effect
d * * Torque
magnetic
* Magnetoplasma effect
* * Helicon
* Magnetooptical effect
[See Hierarchy 36]
* Magnetosphere
* Magnetotalis
* Mass transfer
* * Flow
* * * Magnetohydrodynamics
* * * Plasma
* * * * Pinch effect
* * * * Power
MHD
* * * Reynolds number
magnetic
* * Magnetophoresis
* * Senftleben effect
* Memory effect, chemical and physical
* * Photography
magneto-
* * Recording
magnetic
Magnetic induction and Magnetization
e * Barkhausen effect
* Demagnetization
* Memory effect, chemical and physical
magnetic
* Magnetic aftereffect
* Magnetic anisotropy
* Magnetic energy product
* Magnetic hysteresis
* * Coercive force, magnetic
* * Magnetic energy product
* * Magnetic remanence
* Magnetic loss
* Magnetic permeability
* Magnetic susceptibility
* * Curie-Weiss law
* * De Haas-van Alphen effect
* Magnetoelectric effect
* Photomagnetic effect
Magnetic structure
* Magnetic domain
* Magnetic form factor
* Spin, electronic
-ordering
f * * Compensation point
* * Curie point, ferromagnetic
* * Magnetic relaxation
* * Neel point
* * Spin wave and Magnon
* Magnetic temperature
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28. Mechanical Property
a Buoyancy
(Dimension)
* Length
* * Contraction
* * Expansion, Dilation, and Elongation
* * Level
* * Thickness
* * Wavelength
* Surface area
* Volume
* * Activation volume
* * Atomic volume
* * Avogadro's law
* * Compression and Compressibility
* * * Compaction
* * Contraction
* * Expansion, Dilation, and Elongation
* * * Charles' law
* * * Grueneisen constant
* * Swelling, physical
* * Foam volume
b * * Molar volume and Molecular volume
* * * Rheochor
* * Specific volume
Deformation
* Bending
* * Flexibility
* Compression and Compressibility
* Contraction
* Creep
* Ductility
* * Drawing, forming
* Elasticity
* * Elastic deformation
* * Ferroelasticity
* * * Ferroelastic domain
* * Magnetoelasticity
* * Thermoelasticity
* * Viscoelasticity
* Expansion, Dilation, and Elongation
* Force constant
c * Plasticity
* * Plastic deformation
* * * Bauschinger effect
* * * Yield point
* * Plasticization
* * Viscoplasticity
* Relaxation
* * Gorsky effect
* Resilience
* Shear
* Stiffness
* Strength
* * Bending strength
* * Breaking strength
* * Bursting strength
* * Crushing strength
* * Fracture
* * * Brittleness
* * * * Embrittlement
* * * Crack
d * * * Fatigue, mechanical
* * Gel strength
* * Hardness
* * * Hardening
* * * Softness
* * * * Softening
* * * * Softening point
* * Impact strength
* * Rebinder effect
* * Tearing strength
* * Tensile strength
* * * Yield point
* * Toughness
Electromechanical effect
* Electrostriction
* Piezoelectricity
* Piezoresistance
Magnetomechanical effect
* Magnetostriction
Mass
e * Atomic weight and mass
* Inertia
* Mass transfer
[See Hierarchy 62]
* Material balance
* * Mass balance
* Weight
* * Density
* * Equivalent weight
* * Gram atom
* * Molecular weight
* * * Mole (gram equivalent weight)
* * Weighing
* * Weightlessness
Mechanical chemistry
Mechanical loss
* Friction
* * Internal friction in solids
* * * Anelasticity
* * * Snoek effect
* * Seizing
f Photomechanical effect
* Piezooptical property
* * Photoelasticity
* * Piezochromism
Thermomechanical effect
* Thermostriction
Wear
* Abrasion
* * Miller number
* Erosion
* * Ablation
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29. Mechanics
a Chaos (theoretical)
Classical mechanics
Dynamics
* Molecular dynamics
* (Rotation)
* * Coriolis effect
* * Molecular rotation
* * * Molecular centrifugal distorti
* * * Molecular libration
* * Radius of gyration
* * Vortex
* Rheology
* * Deformation
[See Hierarchy 28]
* * Flow
[See Hierarchy 62]
* Scattering
* * Diffraction
* * * Diffractometry
* Transport procsss and property
[See Hierarchy 62]
* Velocity
* * Acceleration
* * * Propulsion
b * * * * Jet propulsion
* * * * Specific impulse
* * Kinetic energy
* * Momentum
* * Relativity theory
* Vibration
* * Force constant
* * Frequency
* * Molecular vibration
* * * Molecular libration
* * * Renner effect
* * Oscillator model
* * Wave
* * * Doppler effect
* * * Sound and Ultrasound
[See Hierarchy 42]
* * * Wave fumction
* * * Wavelength
Fluid mechanics
Force
* Elementary-particle force
c * Gravitation
* * Graviton (gravitational quantum)
* Nuclear force
* Stress, mechanical
* * Pressure
* * * Disjoining pressure
* * * Fugacity
* * * Intemal pressure
* * * Osmotic pressure
* * * * Donnan equilibrium
* * * * Osmotic coefficient
* * * Pressure drop
* * * Shock wave
* * * * Detonation wave
* * * * Seismic wave
* * * Surface pressure
* * * Vapor pressure
* * * * Acentric factor
* * * * Antoine equation
* * * * Clapeyron equation
d * * * * Dissociation pressure
* * * * Henry's law
* * * * Raoult's law
* * * * Partial pressure
* * Strain
* * * Deformation
[See Hierarchy 28]
* * * Poisson ratio
* * * Portevin-Le Chatelier effect
* * Tension
* * * Surface tension
* * * * Interfacial tension
* * Torque
* * * Torsion
Kinematics
Molecular mechanics
Potential energy and function
* Elementary-particle potential
* Nuclear potential
* Potential barrier
* * Tunneling
e * Potential energy surface and hypersurface
* Pseudopotential
* Thomas-Fermi equation
Quantum mechanics
[See Hierarchy 49]
Stability
* Equilibrium
* * Irreversible process
* * Le Chatelier's law
* * Relaxation
* Metastable state
Statistical mechanics
* Degree of freedom
* Density-functionaI theory
* Distribution function
* * Partition function
* Irreversible process
* * Dissipative structures
* * Onsager reciprocal relation
* * * Phenomenological coefficient
* Kinetic theory
* Stochastic process
f * Sum rule
* Thermodynamics
[See Hierarchy 60]