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{{Other uses}}{{Redirect|Chemical science|the Royal Society of Chemistry journal|Chemical Science (journal)}}{{pp-semi-indef}}{{short description|scientific discipline}}{{TopicTOC-Chemistry}}(File:Henrika Å antel - Kemičarka.jpg|thumb|right|200px|An oil painting of a chemist (by Henrika Å antel in 1932).)Chemistry is the scientific discipline involved with elements and compounds composed of atoms, molecules and ions: their composition, structure, properties, behavior and the changes they undergo during a reaction with other substances.WEB,weblink What is Chemistry?,, 2011-06-12, Chemistry. (n.d.). Merriam-Webster's Medical Dictionary. Retrieved August 19, 2007. In the scope of its subject, chemistry occupies an intermediate position between physics and biology.Carsten Reinhardt. Chemical Sciences in the 20th Century: Bridging Boundaries. Wiley-VCH, 2001. {{ISBN|3-527-30271-9}}. pp. 1–2. It is sometimes called the central science because it provides a foundation for understanding both basic and applied scientific disciplines at a fundamental level.Theodore L. Brown, H. Eugene Lemay, Bruce Edward Bursten, H. Lemay. Chemistry: The Central Science. Prentice Hall; 8 edition (1999). {{ISBN|0-13-010310-1}}. pp. 3–4. For example, chemistry explains aspects of plant chemistry (botany), the formation of igneous rocks (geology), how atmospheric ozone is formed and how environmental pollutants are degraded (ecology), the properties of the soil on the moon (astrophysics), how medications work (pharmacology), and how to collect DNA evidence at a crime scene (forensics).Chemistry addresses topics such as how atoms and molecules interact via chemical bonds to form new chemical compounds. There are four types of chemical bonds: covalent bonds, in which compounds share one or more electron(s); ionic bonds, in which a compound donates one or more electrons to another compound to produce ions (cations and anions); hydrogen bonds; and Van der Waals force bonds.


The word chemistry comes from alchemy, which referred to an earlier set of practices that encompassed elements of chemistry, metallurgy, philosophy, astrology, astronomy, mysticism and medicine. It is often seen as linked to the quest to turn lead or another common starting material into gold,WEB,weblink History of Alchemy, Alchemy Lab, 2011-06-12, though in ancient times, the study encompassed many of the questions of modern chemistry being defined as the study of the composition of waters, movement, growth, embodying, disembodying, drawing the spirits from bodies and bonding the spirits within bodies by the early 4th century Greek-Egyptian alchemist Zosimos.Strathern, P. (2000). Mendeleyev's Dream – the Quest for the Elements. New York: Berkley Books. An alchemist was called a 'chemist' in popular speech, and later the suffix "-ry" was added to this to describe the art of the chemist as "chemistry".The modern word alchemy in turn is derived from the Arabic word al-kÄ«mīā (الكیمیاء). In origin, the term is borrowed from the Greek χημία or χημεία."alchemy", entry in The Oxford English Dictionary, J.A. Simpson and E.S.C. Weiner, vol. 1, 2nd ed., 1989, {{ISBN|0-19-861213-3}}.p. 854, "Arabic alchemy", Georges C. Anawati, pp. 853–885 in Encyclopedia of the history of Arabic science, eds. Roshdi Rashed and Régis Morelon, London: Routledge, 1996, vol. 3, {{ISBN|0-415-12412-3}}. This may have Egyptian origins since al-kÄ«mīā is derived from the Greek χημία, which is in turn derived from the word Kemet, which is the ancient name of Egypt in the Egyptian language. Alternately, al-kÄ«mīā may derive from χημεία, meaning "cast together".Weekley, Ernest (1967). Etymological Dictionary of Modern English. New York: Dover Publications. {{ISBN|0-486-21873-2}}

Modern principles

File:Lab bench.jpg|thumb|upright=1.15|Laboratory, Institute of Biochemistry, University of Cologne in GermanyGermanyThe current model of atomic structure is the quantum mechanical model.WEB, chemical bonding,weblink Britannica, Encyclopædia Britannica, 1 November 2012, Traditional chemistry starts with the study of elementary particles, atoms, molecules,Matter: Atoms from Democritus to Dalton by Anthony Carpi, Ph.D. substances, metals, crystals and other aggregates of matter. Matter can be studied in solid, liquid, gas and plasma states, in isolation or in combination. The interactions, reactions and transformations that are studied in chemistry are usually the result of interactions between atoms, leading to rearrangements of the chemical bonds which hold atoms together. Such behaviors are studied in a chemistry laboratory.The chemistry laboratory stereotypically uses various forms of laboratory glassware. However glassware is not central to chemistry, and a great deal of experimental (as well as applied/industrial) chemistry is done without it.File:Chemicals in flasks.jpg|thumb|right|Solutions of substances in reagent bottles, including ammonium hydroxide and nitric acidnitric acidA chemical reaction is a transformation of some substances into one or more different substances.IUPAC Gold Book Definition The basis of such a chemical transformation is the rearrangement of electrons in the chemical bonds between atoms. It can be symbolically depicted through a chemical equation, which usually involves atoms as subjects. The number of atoms on the left and the right in the equation for a chemical transformation is equal. (When the number of atoms on either side is unequal, the transformation is referred to as a nuclear reaction or radioactive decay.) The type of chemical reactions a substance may undergo and the energy changes that may accompany it are constrained by certain basic rules, known as chemical laws.Energy and entropy considerations are invariably important in almost all chemical studies. Chemical substances are classified in terms of their structure, phase, as well as their chemical compositions. They can be analyzed using the tools of chemical analysis, e.g. spectroscopy and chromatography. Scientists engaged in chemical research are known as chemists.WEB,weblink California Occupational Guide Number 22: Chemists,, 1999-10-29, 2011-06-12,weblink" title="">weblink 2011-06-10, dead, Most chemists specialize in one or more sub-disciplines. Several concepts are essential for the study of chemistry; some of them are:WEB,weblink General Chemistry Online – Companion Notes: Matter,, 2011-06-12,


In chemistry, matter is defined as anything that has rest mass and volume (it takes up space) and is made up of particles. The particles that make up matter have rest mass as well – not all particles have rest mass, such as the photon. Matter can be a pure chemical substance or a mixture of substances.BOOK, Armstrong, James, General, Organic, and Biochemistry: An Applied Approach, Brooks/Cole, 2012, 978-0-534-49349-3, 48,


File:Atom Diagram.svg|thumb|upright=0.75|left|A diagram of an atom based on the Bohr modelBohr modelThe atom is the basic unit of chemistry. It consists of a dense core called the atomic nucleus surrounded by a space occupied by an electron cloud. The nucleus is made up of positively charged protons and uncharged neutrons (together called nucleons), while the electron cloud consists of negatively charged electrons which orbit the nucleus. In a neutral atom, the negatively charged electrons balance out the positive charge of the protons. The nucleus is dense; the mass of a nucleon is approximately 1,836 times that of an electron, yet the radius of an atom is about 10,000 times that of its nucleus.{{sfn|Burrows|Holman|Parsons|Pilling|2008|p=13}}{{sfn|Housecroft|Sharpe|2008|p=2}}The atom is also the smallest entity that can be envisaged to retain the chemical properties of the element, such as electronegativity, ionization potential, preferred oxidation state(s), coordination number, and preferred types of bonds to form (e.g., metallic, ionic, covalent).


File:Simple Periodic Table Chart-en.svg|thumb|right|upright=1.35|Standard form of the periodic tableperiodic tableA chemical element is a pure substance which is composed of a single type of atom, characterized by its particular number of protons in the nuclei of its atoms, known as the atomic number and represented by the symbol Z. The mass number is the sum of the number of protons and neutrons in a nucleus. Although all the nuclei of all atoms belonging to one element will have the same atomic number, they may not necessarily have the same mass number; atoms of an element which have different mass numbers are known as isotopes. For example, all atoms with 6 protons in their nuclei are atoms of the chemical element carbon, but atoms of carbon may have mass numbers of 12 or 13.{{sfn|Housecroft|Sharpe|2008|p=2}}The standard presentation of the chemical elements is in the periodic table, which orders elements by atomic number. The periodic table is arranged in groups, or columns, and periods, or rows. The periodic table is useful in identifying periodic trends.{{sfn|Burrows|Holman|Parsons|Pilling|2009|p=110}}


File:Carbon dioxide structure.png|thumb|left|upright=0.6|Carbon dioxideCarbon dioxideA compound is a pure chemical substance composed of more than one element. The properties of a compound bear little similarity to those of its elements.{{sfn|Burrows|Holman|Parsons|Pilling|2008|p=12}} The standard nomenclature of compounds is set by the International Union of Pure and Applied Chemistry (IUPAC). Organic compounds are named according to the organic nomenclature system.WEB,weblink IUPAC Nomenclature of Organic Chemistry,, 2011-06-12, The names for inorganic compounds are created according to the inorganic nomenclature system. When a compound has more than one component, then they are divided into two classes, the electropositive and the electronegative components.BOOK, Connelly, Neil G., Neil G. Connelly, Damhus, Ture, Ture Damhus, Hartshorn, Richard M., Richard M. Hartshorn, Hutton, Alan T., Alan T. Hutton, Nomenclature of Inorganic Chemistry IUPAC Recommendations 2005, RSCPublishing, 5–12, 978-0-85404-438-2, 2005, In addition the Chemical Abstracts Service has devised a method to index chemical substances. In this scheme each chemical substance is identifiable by a number known as its CAS registry number.


File:Caffeine (1) 3D ball.png|upright=1.05|thumb|right|A ball-and-stick representation of the caffeinecaffeineA molecule is the smallest indivisible portion of a pure chemical substance that has its unique set of chemical properties, that is, its potential to undergo a certain set of chemical reactions with other substances. However, this definition only works well for substances that are composed of molecules, which is not true of many substances (see below). Molecules are typically a set of atoms bound together by covalent bonds, such that the structure is electrically neutral and all valence electrons are paired with other electrons either in bonds or in lone pairs.Thus, molecules exist as electrically neutral units, unlike ions. When this rule is broken, giving the "molecule" a charge, the result is sometimes named a molecular ion or a polyatomic ion. However, the discrete and separate nature of the molecular concept usually requires that molecular ions be present only in well-separated form, such as a directed beam in a vacuum in a mass spectrometer. Charged polyatomic collections residing in solids (for example, common sulfate or nitrate ions) are generally not considered "molecules" in chemistry. Some molecules contain one or more unpaired electrons, creating radicals. Most radicals are comparatively reactive, but some, such as nitric oxide (NO) can be stable.File:Benzene-2D-full.svg|thumb|upright=0.7|left|A 2-D skeletal model of a benzenebenzeneThe "inert" or noble gas elements (helium, neon, argon, krypton, xenon and radon) are composed of lone atoms as their smallest discrete unit, but the other isolated chemical elements consist of either molecules or networks of atoms bonded to each other in some way. Identifiable molecules compose familiar substances such as water, air, and many organic compounds like alcohol, sugar, gasoline, and the various pharmaceuticals.However, not all substances or chemical compounds consist of discrete molecules, and indeed most of the solid substances that make up the solid crust, mantle, and core of the Earth are chemical compounds without molecules. These other types of substances, such as ionic compounds and network solids, are organized in such a way as to lack the existence of identifiable molecules per se. Instead, these substances are discussed in terms of formula units or unit cells as the smallest repeating structure within the substance. Examples of such substances are mineral salts (such as table salt), solids like carbon and diamond, metals, and familiar silica and silicate minerals such as quartz and granite.One of the main characteristics of a molecule is its geometry often called its structure. While the structure of diatomic, triatomic or tetra-atomic molecules may be trivial, (linear, angular pyramidal etc.) the structure of polyatomic molecules, that are constituted of more than six atoms (of several elements) can be crucial for its chemical nature.

Substance and mixture

A chemical substance is a kind of matter with a definite composition and set of properties.BOOK, General Chemistry, Hill, J.W., Petrucci, R.H., McCreary, T.W., Perry, S.S., 4th, Pearson Prentice Hall, Upper Saddle River, New Jersey, 2005, 37, A collection of substances is called a mixture. Examples of mixtures are air and alloys.BOOK, Magnesium and Magnesium Alloys, 59, M.M. Avedesian, Hugh Baker, ASM International,

Mole and amount of substance

The mole is a unit of measurement that denotes an amount of substance (also called chemical amount). The mole is defined as the number of atoms found in exactly 0.012 kilogram (or 12 grams) of carbon-12, where the carbon-12 atoms are unbound, at rest and in their ground state.WEB,weblink Official SI Unit definitions,, 2011-06-12, The number of entities per mole is known as the Avogadro constant, and is determined empirically to be approximately 6.022{{e|23}} mol−1.{{sfn|Burrows|Holman|Parsons|Pilling|2008|p=16}} Molar concentration is the amount of a particular substance per volume of solution, and is commonly reported in mol/dm3.{{sfn|Atkins|de Paula|2009|p=9}}


(File:Phase changes.svg|thumb|upright=1.25|Diagram showing relationships among the phases and the terms used to describe phase changes.)In addition to the specific chemical properties that distinguish different chemical classifications, chemicals can exist in several phases. For the most part, the chemical classifications are independent of these bulk phase classifications; however, some more exotic phases are incompatible with certain chemical properties. A phase is a set of states of a chemical system that have similar bulk structural properties, over a range of conditions, such as pressure or temperature.Physical properties, such as density and refractive index tend to fall within values characteristic of the phase. The phase of matter is defined by the phase transition, which is when energy put into or taken out of the system goes into rearranging the structure of the system, instead of changing the bulk conditions.Sometimes the distinction between phases can be continuous instead of having a discrete boundary' in this case the matter is considered to be in a supercritical state. When three states meet based on the conditions, it is known as a triple point and since this is invariant, it is a convenient way to define a set of conditions.The most familiar examples of phases are solids, liquids, and gases. Many substances exhibit multiple solid phases. For example, there are three phases of solid iron (alpha, gamma, and delta) that vary based on temperature and pressure. A principal difference between solid phases is the crystal structure, or arrangement, of the atoms. Another phase commonly encountered in the study of chemistry is the aqueous phase, which is the state of substances dissolved in aqueous solution (that is, in water).Less familiar phases include plasmas, Bose–Einstein condensates and fermionic condensates and the paramagnetic and ferromagnetic phases of magnetic materials. While most familiar phases deal with three-dimensional systems, it is also possible to define analogs in two-dimensional systems, which has received attention for its relevance to systems in biology.


File:Ionic bonding animation.gif|thumb|right|upright=1.15|An animation of the process of ionic bonding between sodium (Na) and chlorine (Cl) to form sodium chloridesodium chlorideAtoms sticking together in molecules or crystals are said to be bonded with one another. A chemical bond may be visualized as the multipole balance between the positive charges in the nuclei and the negative charges oscillating about them.WEB, Visionlearning,weblink Chemical Bonding by Anthony Carpi, Ph, visionlearning, 2011-06-12, More than simple attraction and repulsion, the energies and distributions characterize the availability of an electron to bond to another atom.A chemical bond can be a covalent bond, an ionic bond, a hydrogen bond or just because of Van der Waals force. Each of these kinds of bonds is ascribed to some potential. These potentials create the interactions which hold atoms together in molecules or crystals. In many simple compounds, valence bond theory, the Valence Shell Electron Pair Repulsion model (VSEPR), and the concept of oxidation number can be used to explain molecular structure and composition.An ionic bond is formed when a metal loses one or more of its electrons, becoming a positively charged cation, and the electrons are then gained by the non-metal atom, becoming a negatively charged anion. The two oppositely charged ions attract one another, and the ionic bond is the electrostatic force of attraction between them. For example, sodium (Na), a metal, loses one electron to become an Na+ cation while chlorine (Cl), a non-metal, gains this electron to become Cl−. The ions are held together due to electrostatic attraction, and that compound sodium chloride (NaCl), or common table salt, is formed.File:Elektronenformel Punkte CH4.svg|thumb|upright=0.75|left|In the methanemethaneIn a covalent bond, one or more pairs of valence electrons are shared by two atoms: the resulting electrically neutral group of bonded atoms is termed a molecule. Atoms will share valence electrons in such a way as to create a noble gas electron configuration (eight electrons in their outermost shell) for each atom. Atoms that tend to combine in such a way that they each have eight electrons in their valence shell are said to follow the octet rule. However, some elements like hydrogen and lithium need only two electrons in their outermost shell to attain this stable configuration; these atoms are said to follow the duet rule, and in this way they are reaching the electron configuration of the noble gas helium, which has two electrons in its outer shell.Similarly, theories from classical physics can be used to predict many ionic structures. With more complicated compounds, such as metal complexes, valence bond theory is less applicable and alternative approaches, such as the molecular orbital theory, are generally used. See diagram on electronic orbitals.


In the context of chemistry, energy is an attribute of a substance as a consequence of its atomic, molecular or aggregate structure. Since a chemical transformation is accompanied by a change in one or more of these kinds of structures, it is invariably accompanied by an increase or decrease of energy of the substances involved. Some energy is transferred between the surroundings and the reactants of the reaction in the form of heat or light; thus the products of a reaction may have more or less energy than the reactants.A reaction is said to be exergonic if the final state is lower on the energy scale than the initial state; in the case of endergonic reactions the situation is the reverse. A reaction is said to be exothermic if the reaction releases heat to the surroundings; in the case of endothermic reactions, the reaction absorbs heat from the surroundings.Chemical reactions are invariably not possible unless the reactants surmount an energy barrier known as the activation energy. The speed of a chemical reaction (at given temperature T) is related to the activation energy E, by the Boltzmann's population factor e^{-E/kT} – that is the probability of a molecule to have energy greater than or equal to E at the given temperature T. This exponential dependence of a reaction rate on temperature is known as the Arrhenius equation.The activation energy necessary for a chemical reaction to occur can be in the form of heat, light, electricity or mechanical force in the form of ultrasound.Reilly, Michael. (2007). Mechanical force induces chemical reaction, news service, ReillyA related concept free energy, which also incorporates entropy considerations, is a very useful means for predicting the feasibility of a reaction and determining the state of equilibrium of a chemical reaction, in chemical thermodynamics. A reaction is feasible only if the total change in the Gibbs free energy is negative, Delta G le 0 ,; if it is equal to zero the chemical reaction is said to be at equilibrium.There exist only limited possible states of energy for electrons, atoms and molecules. These are determined by the rules of quantum mechanics, which require quantization of energy of a bound system. The atoms/molecules in a higher energy state are said to be excited. The molecules/atoms of substance in an excited energy state are often much more reactive; that is, more amenable to chemical reactions.The phase of a substance is invariably determined by its energy and the energy of its surroundings. When the intermolecular forces of a substance are such that the energy of the surroundings is not sufficient to overcome them, it occurs in a more ordered phase like liquid or solid as is the case with water (H2O); a liquid at room temperature because its molecules are bound by hydrogen bonds.Changing States of Matter – Whereas hydrogen sulfide (H2S) is a gas at room temperature and standard pressure, as its molecules are bound by weaker dipole-dipole interactions.The transfer of energy from one chemical substance to another depends on the size of energy quanta emitted from one substance. However, heat energy is often transferred more easily from almost any substance to another because the phonons responsible for vibrational and rotational energy levels in a substance have much less energy than photons invoked for the electronic energy transfer. Thus, because vibrational and rotational energy levels are more closely spaced than electronic energy levels, heat is more easily transferred between substances relative to light or other forms of electronic energy. For example, ultraviolet electromagnetic radiation is not transferred with as much efficacy from one substance to another as thermal or electrical energy.The existence of characteristic energy levels for different chemical substances is useful for their identification by the analysis of spectral lines. Different kinds of spectra are often used in chemical spectroscopy, e.g. IR, microwave, NMR, ESR, etc. Spectroscopy is also used to identify the composition of remote objects – like stars and distant galaxies – by analyzing their radiation spectra.File:Emission spectrum-Fe.svg|thumb|upright=2.25|center|Emission spectrum of ironironThe term chemical energy is often used to indicate the potential of a chemical substance to undergo a transformation through a chemical reaction or to transform other chemical substances.


File:VysokePece1.jpg|thumb|right|During chemical reactions, bonds between atoms break and form, resulting in different substances with different properties. In a blast furnace, iron oxide, a compound, reacts with carbon monoxide to form iron, one of the chemical elementchemical elementWhen a chemical substance is transformed as a result of its interaction with another substance or with energy, a chemical reaction is said to have occurred. A chemical reaction is therefore a concept related to the "reaction" of a substance when it comes in close contact with another, whether as a mixture or a solution; exposure to some form of energy, or both. It results in some energy exchange between the constituents of the reaction as well as with the system environment, which may be designed vessels—often laboratory glassware.Chemical reactions can result in the formation or dissociation of molecules, that is, molecules breaking apart to form two or more molecules or rearrangement of atoms within or across molecules. Chemical reactions usually involve the making or breaking of chemical bonds. Oxidation, reduction, dissociation, acid-base neutralization and molecular rearrangement are some of the commonly used kinds of chemical reactions.A chemical reaction can be symbolically depicted through a chemical equation. While in a non-nuclear chemical reaction the number and kind of atoms on both sides of the equation are equal, for a nuclear reaction this holds true only for the nuclear particles viz. protons and neutrons.Chemical Reaction Equation – IUPAC GoldbookThe sequence of steps in which the reorganization of chemical bonds may be taking place in the course of a chemical reaction is called its mechanism. A chemical reaction can be envisioned to take place in a number of steps, each of which may have a different speed. Many reaction intermediates with variable stability can thus be envisaged during the course of a reaction. Reaction mechanisms are proposed to explain the kinetics and the relative product mix of a reaction. Many physical chemists specialize in exploring and proposing the mechanisms of various chemical reactions. Several empirical rules, like the Woodward–Hoffmann rules often come in handy while proposing a mechanism for a chemical reaction.According to the IUPAC gold book, a chemical reaction is "a process that results in the interconversion of chemical species."Gold Book Chemical Reaction IUPAC Goldbook Accordingly, a chemical reaction may be an elementary reaction or a stepwise reaction. An additional caveat is made, in that this definition includes cases where the interconversion of conformers is experimentally observable. Such detectable chemical reactions normally involve sets of molecular entities as indicated by this definition, but it is often conceptually convenient to use the term also for changes involving single molecular entities (i.e. 'microscopic chemical events').

Ions and salts

File:Potassium-chloride-3D-ionic.png|thumb|upright=0.75|The crystal lattice structure of potassium chloridepotassium chlorideAn ion is a charged species, an atom or a molecule, that has lost or gained one or more electrons. When an atom loses an electron and thus has more protons than electrons, the atom is a positively charged ion or cation. When an atom gains an electron and thus has more electrons than protons, the atom is a negatively charged ion or anion. Cations and anions can form a crystalline lattice of neutral salts, such as the Na+ and Cl− ions forming sodium chloride, or NaCl. Examples of polyatomic ions that do not split up during acid-base reactions are hydroxide (OH−) and phosphate (PO43−).Plasma is composed of gaseous matter that has been completely ionized, usually through high temperature.

Acidity and basicity

File:Hydrogen-bromide-3D-vdW.svg|thumb|left|upright=0.75|When hydrogen bromide (HBr), pictured, is dissolved in water, it forms the strong acid hydrobromic acidhydrobromic acidA substance can often be classified as an acid or a base. There are several different theories which explain acid-base behavior. The simplest is Arrhenius theory, which states that acid is a substance that produces hydronium ions when it is dissolved in water, and a base is one that produces hydroxide ions when dissolved in water. According to Brønsted–Lowry acid-base theory, acids are substances that donate a positive hydrogen ion to another substance in a chemical reaction; by extension, a base is the substance which receives that hydrogen ion.A third common theory is Lewis acid-base theory, which is based on the formation of new chemical bonds. Lewis theory explains that an acid is a substance which is capable of accepting a pair of electrons from another substance during the process of bond formation, while a base is a substance which can provide a pair of electrons to form a new bond. According to this theory, the crucial things being exchanged are charges.WEB,weblink The Lewis Acid-Base Concept, 2010-07-31, May 19, 2003, Apsidium,weblink" title="">weblink 2008-05-27, dead, {{Unreliable source?|date=July 2010}} There are several other ways in which a substance may be classified as an acid or a base, as is evident in the history of this concept.WEB,weblink History of Acidity,, 2004-05-27, 2011-06-12, Acid strength is commonly measured by two methods. One measurement, based on the Arrhenius definition of acidity, is pH, which is a measurement of the hydronium ion concentration in a solution, as expressed on a negative logarithmic scale. Thus, solutions that have a low pH have a high hydronium ion concentration and can be said to be more acidic. The other measurement, based on the Brønsted–Lowry definition, is the acid dissociation constant (Ka), which measures the relative ability of a substance to act as an acid under the Brønsted–Lowry definition of an acid. That is, substances with a higher Ka are more likely to donate hydrogen ions in chemical reactions than those with lower Ka values.


Redox (reduction-oxidation) reactions include all chemical reactions in which atoms have their oxidation state changed by either gaining electrons (reduction) or losing electrons (oxidation). Substances that have the ability to oxidize other substances are said to be oxidative and are known as oxidizing agents, oxidants or oxidizers. An oxidant removes electrons from another substance. Similarly, substances that have the ability to reduce other substances are said to be reductive and are known as reducing agents, reductants, or reducers.A reductant transfers electrons to another substance and is thus oxidized itself. And because it "donates" electrons it is also called an electron donor. Oxidation and reduction properly refer to a change in oxidation number—the actual transfer of electrons may never occur. Thus, oxidation is better defined as an increase in oxidation number, and reduction as a decrease in oxidation number.


Although the concept of equilibrium is widely used across sciences, in the context of chemistry, it arises whenever a number of different states of the chemical composition are possible, as for example, in a mixture of several chemical compounds that can react with one another, or when a substance can be present in more than one kind of phase.A system of chemical substances at equilibrium, even though having an unchanging composition, is most often not static; molecules of the substances continue to react with one another thus giving rise to a dynamic equilibrium. Thus the concept describes the state in which the parameters such as chemical composition remain unchanged over time.

Chemical laws

Chemical reactions are governed by certain laws, which have become fundamental concepts in chemistry. Some of them are:{{div col|colwidth=30em}} {{div col end}}


The history of chemistry spans a period from very old times to the present. Since several millennia BC, civilizations were using technologies that would eventually form the basis of the various branches of chemistry. Examples include extracting metals from ores, making pottery and glazes, fermenting beer and wine, extracting chemicals from plants for medicine and perfume, rendering fat into soap, making glass, and making alloys like bronze. Chemistry was preceded by its protoscience, alchemy, which is an intuitive but non-scientific approach to understanding the constituents of matter and their interactions. It was unsuccessful in explaining the nature of matter and its transformations, but, by performing experiments and recording the results, alchemists set the stage for modern chemistry. Chemistry as a body of knowledge distinct from alchemy began to emerge when a clear differentiation was made between them by Robert Boyle in his work The Sceptical Chymist (1661). While both alchemy and chemistry are concerned with matter and its transformations, the crucial difference was given by the scientific method that chemists employed in their work. Chemistry is considered to have become an established science with the work of Antoine Lavoisier, who developed a law of conservation of mass that demanded careful measurement and quantitative observations of chemical phenomena. The history of chemistry is intertwined with the history of thermodynamics, especially through the work of Willard Gibbs.Selected Classic Papers from the History of Chemistry

Of definition

The definition of chemistry has changed over time, as new discoveries and theories add to the functionality of the science. The term "chymistry", in the view of noted scientist Robert Boyle in 1661, meant the subject of the material principles of mixed bodies.BOOK, Boyle, Robert, The Sceptical Chymist, New York, Dover Publications, Inc. (reprint), 1661, 978-0-486-42825-3, In 1663, the chemist Christopher Glaser described "chymistry" as a scientific art, by which one learns to dissolve bodies, and draw from them the different substances on their composition, and how to unite them again, and exalt them to a higher perfection.BOOK, Glaser, Christopher, Traite de la chymie, Paris, 1663, as found in: BOOK, Kim, Mi Gyung, Affinity, That Elusive Dream – A Genealogy of the Chemical Revolution, The MIT Press, 2003, 978-0-262-11273-4, The 1730 definition of the word "chemistry", as used by Georg Ernst Stahl, meant the art of resolving mixed, compound, or aggregate bodies into their principles; and of composing such bodies from those principles.BOOK, Stahl, George, E., Philosophical Principles of Universal Chemistry, London, 1730, In 1837, Jean-Baptiste Dumas considered the word "chemistry" to refer to the science concerned with the laws and effects of molecular forces.Dumas, J.B. (1837). 'Affinite' (lecture notes), vii, p 4. "Statique chimique", Paris: Académie des Sciences This definition further evolved until, in 1947, it came to mean the science of substances: their structure, their properties, and the reactions that change them into other substances – a characterization accepted by Linus Pauling.BOOK, Pauling, Linus, General Chemistry, Dover Publications, Inc., 1947, 978-0-486-65622-9,weblink More recently, in 1998, Professor Raymond Chang broadened the definition of "chemistry" to mean the study of matter and the changes it undergoes.BOOK, Chang, Raymond, Chemistry, 6th Ed., New York, McGraw Hill, 1998, 978-0-07-115221-1,

Of discipline

{{See also|Alchemy|Timeline of chemistry}}File:Epicurus Louvre.jpg|thumb|upright=0.9|Democritus' atomist philosophy was later adopted by EpicurusEpicurusEarly civilizations, such as the EgyptiansFirst chemists, February 13, 1999, New Scientist Babylonians, IndiansBOOK, Textiles in Indian Ocean Societies, Ruth, Barnes, 1, Routledge, amassed practical knowledge concerning the arts of metallurgy, pottery and dyes, but didn't develop a systematic theory.A basic chemical hypothesis first emerged in Classical Greece with the theory of four elements as propounded definitively by Aristotle stating that fire, air, earth and water were the fundamental elements from which everything is formed as a combination. Greek atomism dates back to 440 BC, arising in works by philosophers such as Democritus and Epicurus. In 50 BCE, the Roman philosopher Lucretius expanded upon the theory in his book De rerum natura (On The Nature of Things).WEB,weblink de Rerum Natura (On the Nature of Things), Lucretius, 50 BCE, Massachusetts Institute of Technology, The Internet Classics Archive, 9 January 2007, WEB, Simpson, David, Lucretius (c. 99–55 BCE), The Internet History of Philosophy, 29 June 2005,weblink 2007-01-09, Unlike modern concepts of science, Greek atomism was purely philosophical in nature, with little concern for empirical observations and no concern for chemical experiments.BOOK, Strodach, George K., The Art of Happiness, 2012, Penguin Classics, 978-0-14-310721-7, 7–8, New York, An early form of the idea of conservation of mass is the notion that "Nothing comes from nothing" in Ancient Greek philosophy, which can be found in Empedocles (approx. 4th century BC): "For it is impossible for anything to come to be from what is not, and it cannot be brought about or heard of that what is should be utterly destroyed."Fr. 12; see pp.291–2 of BOOK, 2, Cambridge University Press, 978-0-521-27455-5, Kirk, G. S., J. E. Raven, Malcolm Schofield, The Presocratic Philosophers, Cambridge, 1983, and Epicurus (3rd century BC), who, describing the nature of the Universe, wrote that "the totality of things was always such as it is now, and always will be".BOOK, Cambridge University Press, 978-0-521-27556-9, 25–26, Long, A. A., D. N. Sedley, The Hellenistic Philosophers. Vol 1: Translations of the principal sources with philosophical commentary, Epicureanism: The principals of conservation, Cambridge, 1987, In the Hellenistic world the art of alchemy first proliferated, mingling magic and occultism into the study of natural substances with the ultimate goal of transmuting elements into gold and discovering the elixir of eternal life.WEB,weblink International Year of Chemistry – The History of Chemistry, G.I.T. Laboratory Journal Europe, Feb 25, 2011, March 12, 2013, Work, particularly the development of distillation, continued in the early Byzantine period with the most famous practitioner being the 4th century Greek-Egyptian Zosimos of Panopolis.BOOK, 88, The History of Science and Technology, Bryan H. Bunch, Alexander Hellemans, yes, Houghton Mifflin Harcourt, 2004, 978-0-618-22123-3,weblink Alchemy continued to be developed and practised throughout the Arab world after the Muslim conquests,Morris Kline (1985) Mathematics for the nonmathematician. Courier Dover Publications. p. 284. {{ISBN|0-486-24823-2}} and from there, and from the Byzantine remnants,Marcelin Berthelot, Collection des anciens alchimistes grecs (3 vol., Paris, 1887–1888, p. 161); F. Sherwood Taylor, "The Origins of Greek Alchemy," Ambix 1 (1937), 40. diffused into medieval and Renaissance Europe through Latin translations.File:Jabir ibn Hayyan.jpg|thumb|Jābir ibn Hayyān (Geber), a Perso-Arab alchemist whose experimental research laid the foundations of chemistry.]]The development of the modern scientific method was slow and arduous, but an early scientific method for chemistry began emerging among early Muslim chemists, beginning with the 9th century Perso-Arab chemist Jābir ibn Hayyān (known as "Geber" in Europe), who is sometimes referred to as "the father of chemistry".JOURNAL, Zygmunt S., Derewenda, 2007, On wine, chirality and crystallography, Acta Crystallographica Section A, 64, 246–258 [247], 10.1107/S0108767307054293, 18156689, Derewenda, ZS, Pt 1, 2008AcCrA..64..246D, John Warren (2005). "War and the Cultural Heritage of Iraq: a sadly mismanaged affair", Third World Quarterly, Volume 26, Issue 4 & 5, pp. 815–830.Dr. A. Zahoor (1997), Jâbir ibn Hayyân (Geber)Paul Vallely, How Islamic inventors changed the world, The Independent, 10 March 2006 He introduced a systematic and experimental approach to scientific research based in the laboratory, in contrast to the ancient Greek and Egyptian alchemists whose works were largely allegorical and often unintelligible.Kraus, Paul, Jâbir ibn Hayyân, Contribution à l'histoire des idées scientifiques dans l'Islam. I. Le corpus des écrits jâbiriens. II. Jâbir et la science grecque,. Cairo (1942–1943). Repr. By Fuat Sezgin, (Natural Sciences in Islam. 67–68), Frankfurt. 2002:(cf. WEB, Ahmad Y Hassan, A Critical Reassessment of the Geber Problem: Part Three,weblinkweblink" title="">weblink 2008-11-20, 2008-08-09, ) He also introduced the alembic (al-anbiq) of Persian encyclopedist Ibn al-Awwam to Europe, chemically analyzed many chemical substances, composed lapidaries, distinguished between alkalis and acids, and manufactured hundreds of drugs.Will Durant (1980). The Age of Faith (The Story of Civilization, Volume 4), p. 162-186. Simon & Schuster. {{ISBN|0-671-01200-2}}. His books strongly influenced the medieval European alchemists and justified their search for the philosopher's stone.JOURNAL, The Philosopher's Stone: Alchemy and Chemistry, Jehane, Ragai, Journal of Comparative Poetics, 12, Metaphor and Allegory in the Middle Ages, 1992, 58–77, 10.2307/521636, 521636, JOURNAL, Maslama al-Majriti and the Rutbatu'l-Hakim, E. J., Holmyard, Isis (journal), Isis, 6, 3, 1924, 293–305, 10.1086/358238, In the Middle Ages, Jabir's treatises on alchemy were translated into Latin and became standard texts for European alchemists. These include the Kitab al-Kimya (titled Book of the Composition of Alchemy in Europe), translated by Robert of Chester (1144); and the Kitab al-Sab'een (Book of Seventy) by Gerard of Cremona (before 1187). Later influential Muslim philosophers, such as AbÅ« al-Rayhān al-BÄ«rÅ«nÄ«,JOURNAL, 10.2307/2851429, Marmura, Michael E., Nasr, Seyyed Hossein, 1965, An Introduction to Islamic Cosmological Doctrines. Conceptions of Nature and Methods Used for Its Study by the Ikhwan Al-Safa'an, Al-Biruni, and Ibn Sina by Seyyed Hossein Nasr, 2851429, Speculum, 40, 4, 744–746, Hossein Nasr, AvicennaRobert Briffault (1938). The Making of Humanity, pp. 196–197. and Al-Kindi disputed the theories of alchemy, particularly the theory of the transmutation of metals; and al-Tusi described a version of the conservation of mass, noting that a body of matter is able to change but is not able to disappear.JOURNAL, Alakbarov, Farid, 2001, A 13th-Century Darwin? Tusi's Views on Evolution,weblink Azerbaijan International, 9, 2, Under the influence of the new empirical methods propounded by Sir Francis Bacon and others, a group of chemists at Oxford, Robert Boyle, Robert Hooke and John Mayow began to reshape the old alchemical traditions into a scientific discipline. Boyle in particular is regarded as the founding father of chemistry due to his most important work, the classic chemistry text The Sceptical Chymist where the differentiation is made between the claims of alchemy and the empirical scientific discoveries of the new chemistry."Robert Boyle, Founder of Modern Chemistry" Harry Sootin (2011) He formulated Boyle's law, rejected the classical "four elements" and proposed a mechanistic alternative of atoms and chemical reactions that could be subject to rigorous experiment.WEB,weblink History – Robert Boyle (1627–1691), BBC, 2011-06-12, File:Antoine lavoisier color.jpg|thumb|right|upright=0.9|(Antoine-Laurent de Lavoisier]] is considered the "Father of Modern Chemistry".JOURNAL, Eagle, Cassandra T., Jennifer Sloan, Marie Anne Paulze Lavoisier: The Mother of Modern Chemistry, The Chemical Educator, 1998, 3, 5, 1–18, 10.1007/s00897980249a, )The theory of phlogiston (a substance at the root of all combustion) was propounded by the German Georg Ernst Stahl in the early 18th century and was only overturned by the end of the century by the French chemist Antoine Lavoisier, the chemical analogue of Newton in physics; who did more than any other to establish the new science on proper theoretical footing, by elucidating the principle of conservation of mass and developing a new system of chemical nomenclature used to this day.BOOK, Affinity, that Elusive Dream: A Genealogy of the Chemical Revolution, Mi Gyung Kim, MIT Press, 2003, 440, 978-0-262-11273-4, Before his work, though, many important discoveries had been made, specifically relating to the nature of 'air' which was discovered to be composed of many different gases. The Scottish chemist Joseph Black (the first experimental chemist) and the Dutchman J.B. van Helmont discovered carbon dioxide, or what Black called 'fixed air' in 1754; Henry Cavendish discovered hydrogen and elucidated its properties and Joseph Priestley and, independently, Carl Wilhelm Scheele isolated pure oxygen.File:Дмитрий Иванович Менделеев 4.gif|thumb|left|In his periodic table, (Dmitri Mendeleev]] predicted the existence of 7 new elements,WEB, Chemistry 412 course notes, A Brief History of the Development of Periodic Table, Western Oregon University,weblink July 20, 2015, and placed all 60 elements known at the time in their correct places.Note: " is surely true that had Mendeleev never lived modern chemists would be using a Periodic Table" and WEB,weblink Dmitri Mendeleev, Royal Society of Chemistry, July 18, 2015, )English scientist John Dalton proposed the modern theory of atoms; that all substances are composed of indivisible 'atoms' of matter and that different atoms have varying atomic weights.The development of the electrochemical theory of chemical combinations occurred in the early 19th century as the result of the work of two scientists in particular, J.J. Berzelius and Humphry Davy, made possible by the prior invention of the voltaic pile by Alessandro Volta. Davy discovered nine new elements including the alkali metals by extracting them from their oxides with electric current.JOURNAL, Humphry, Davy, On some new Phenomena of Chemical Changes produced by Electricity, particularly the Decomposition of the fixed Alkalies, and the Exhibition of the new Substances, which constitute their Bases, 1–45, 1808, 98, Philosophical Transactions of the Royal Society,weblink 10.1098/rstl.1808.0001, British William Prout first proposed ordering all the elements by their atomic weight as all atoms had a weight that was an exact multiple of the atomic weight of hydrogen. J.A.R. Newlands devised an early table of elements, which was then developed into the modern periodic table of elementsWEB,weblink WebElements: the periodic table on the web, Winter, Mark, The University of Sheffield, January 27, 2014, January 4, 2014,weblink" title="">weblink live, in the 1860s by Dmitri Mendeleev and independently by several other scientists including Julius Lothar Meyer.WEB,weblink Julius Lothar Meyer and Dmitri Ivanovich Mendeleev, Science History Institute, March 20, 2018, June 2016, "What makes these family likenesses among the elements? In the 1860s everyone was scratching their heads about that, and several scientists moved towards rather similar answers. The man who solved the problem most triumphantly was a young Russian called Dmitri Ivanovich Mendeleev, who visited the salt mine at Wieliczka in 1859." BOOK, The Ascent of Man, Bronowski, Jacob, Little, Brown and Company, 978-0-316-10930-7, 1973, 322,weblink The inert gases, later called the noble gases were discovered by William Ramsay in collaboration with Lord Rayleigh at the end of the century, thereby filling in the basic structure of the table.File:Rutherford gold foil experiment results.svg|right|upright|thumb|Top: Expected results: alpha particles passing through the plum pudding model of the atom undisturbed.Bottom: Observed results: a small portion of the particles were deflected, indicating a small, concentrated charge.]]At the turn of the twentieth century the theoretical underpinnings of chemistry were finally understood due to a series of remarkable discoveries that succeeded in probing and discovering the very nature of the internal structure of atoms. In 1897, J.J. Thomson of Cambridge University discovered the electron and soon after the French scientist Becquerel as well as the couple Pierre and Marie Curie investigated the phenomenon of radioactivity. In a series of pioneering scattering experiments Ernest Rutherford at the University of Manchester discovered the internal structure of the atom and the existence of the proton, classified and explained the different types of radioactivity and successfully transmuted the first element by bombarding nitrogen with alpha particles.His work on atomic structure was improved on by his students, the Danish physicist Niels Bohr and Henry Moseley. The electronic theory of chemical bonds and molecular orbitals was developed by the American scientists Linus Pauling and Gilbert N. Lewis.The year 2011 was declared by the United Nations as the International Year of Chemistry.WEB,weblink Chemistry,, 2012-03-10, It was an initiative of the International Union of Pure and Applied Chemistry, and of the United Nations Educational, Scientific, and Cultural Organization and involves chemical societies, academics, and institutions worldwide and relied on individual initiatives to organize local and regional activities.Organic chemistry was developed by Justus von Liebig and others, following Friedrich Wöhler's synthesis of urea which proved that living organisms were, in theory, reducible to chemistry.BOOK, The Development of Modern Chemistry, Ihde, Aaron John, Courier Dover Publications, 1984, 164, 978-0-486-64235-2, Other crucial 19th century advances were; an understanding of valence bonding (Edward Frankland in 1852) and the application of thermodynamics to chemistry (J. W. Gibbs and Svante Arrhenius in the 1870s).



{{one source|date=September 2014}}Chemistry is typically divided into several major sub-disciplines. There are also several main cross-disciplinary and more specialized fields of chemistry.ENCYCLOPEDIA, W.G. Laidlaw; D.E. Ryan And Gary Horlick; H.C. Clark, Josef Takats, And Martin Cowie; R.U. Lemieux,weblink Chemistry Subdisciplines, The Canadian Encyclopedia, 1986-12-10, 2011-06-12, Other disciplines within chemistry are traditionally grouped by the type of matter being studied or the kind of study. These include inorganic chemistry, the study of inorganic matter; organic chemistry, the study of organic (carbon-based) matter; biochemistry, the study of substances found in biological organisms; physical chemistry, the study of chemical processes using physical concepts such as thermodynamics and quantum mechanics; and analytical chemistry, the analysis of material samples to gain an understanding of their chemical composition and structure. Many more specialized disciplines have emerged in recent years, e.g. neurochemistry the chemical study of the nervous system (see subdisciplines).Other fields include agrochemistry, astrochemistry (and cosmochemistry), atmospheric chemistry, chemical engineering, chemical biology, chemo-informatics, electrochemistry, environmental chemistry, femtochemistry, flavor chemistry, flow chemistry, geochemistry, green chemistry, histochemistry, history of chemistry, hydrogenation chemistry, immunochemistry, marine chemistry, materials science, mathematical chemistry, mechanochemistry, medicinal chemistry, molecular biology, molecular mechanics, nanotechnology, natural product chemistry, oenology, organometallic chemistry, petrochemistry, pharmacology, photochemistry, physical organic chemistry, phytochemistry, polymer chemistry, radiochemistry, solid-state chemistry, sonochemistry, supramolecular chemistry, surface chemistry, synthetic chemistry, thermochemistry, and many others.


The chemical industry represents an important economic activity worldwide. The global top 50 chemical producers in 2013 had sales of US$980.5 billion with a profit margin of 10.3%.NEWS, Tullo, Alexander H., 28 July 2014, C&EN’s Global Top 50 Chemical Firms For 2014,weblink Chemical & Engineering News, American Chemical Society, 22 August 2014,

Professional societies

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See also

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  • BOOK, harv, Atkins, Peter, Peter Atkins, de Paula, Julio, Elements of Physical Chemistry, 5th, 2009, 1992, Oxford University Press, New York, 978-0-19-922672-6,
  • BOOK, harv, Burrows, Andrew, Holman, John, Parsons, Andrew, Pilling, Gwen, Price, Gareth, Chemistry3, 2009, Oxford University Press, Italy, 978-0-19-927789-6,
  • BOOK, harv, Housecroft, Catherine E., Sharpe, Alan G., Inorganic Chemistry, 3rd, 2008, 2001, Pearson Education, Harlow, Essex, 978-0-13-175553-6,

Further reading

Popular reading
  • Atkins, P.W. Galileo's Finger (Oxford University Press) {{ISBN|0-19-860941-8}}
  • Atkins, P.W. Atkins' Molecules (Cambridge University Press) {{ISBN|0-521-82397-8}}
  • Kean, Sam. The Disappearing Spoon – and other true tales from the Periodic Table (Black Swan) London, 2010 {{ISBN|978-0-552-77750-6}}
  • Levi, Primo The Periodic Table (Penguin Books) [1975] translated from the Italian by Raymond Rosenthal (1984) {{ISBN|978-0-14-139944-7}}
  • Stwertka, A. A Guide to the Elements (Oxford University Press) {{ISBN|0-19-515027-9}}
  • WEB, Dictionary of the History of Ideas,weblink dead,weblink" title="">weblink March 10, 2008,
  • EB1911, Chemistry, 6, 33–76, 1,

Introductory undergraduate text books
  • Atkins, P.W., Overton, T., Rourke, J., Weller, M. and Armstrong, F. Shriver and Atkins inorganic chemistry (4th edition) 2006 (Oxford University Press) {{ISBN|0-19-926463-5}}
  • Chang, Raymond. Chemistry 6th ed. Boston: James M. Smith, 1998. {{ISBN|0-07-115221-0}}.
  • {{Clayden}}
  • Voet and Voet Biochemistry (Wiley) {{ISBN|0-471-58651-X}}

Advanced undergraduate-level or graduate text books
  • Atkins, P.W. Physical Chemistry (Oxford University Press) {{ISBN|0-19-879285-9}}
  • Atkins, P.W. et al. Molecular Quantum Mechanics (Oxford University Press)
  • McWeeny, R. Coulson's Valence (Oxford Science Publications) {{ISBN|0-19-855144-4}}
  • Pauling, L. The Nature of the chemical bond (Cornell University Press) {{ISBN|0-8014-0333-2}}
  • Pauling, L., and Wilson, E.B. Introduction to Quantum Mechanics with Applications to Chemistry (Dover Publications) {{ISBN|0-486-64871-0}}
  • Smart and Moore Solid State Chemistry: An Introduction (Chapman and Hall) {{ISBN|0-412-40040-5}}
  • Stephenson, G. Mathematical Methods for Science Students (Longman) {{ISBN|0-582-44416-0}}

External links

{{Sister project links|v=no|Chemistry}} {{Branches of chemistry}}{{Natural science}}{{Authority control}}

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