Portal:Chemistry

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Introduction

Chemistry is the scientific study of the properties and behavior of matter. It is a physical science within the natural sciences that studies the chemical elements that make up matter and compounds made of atoms, molecules and ions: their composition, structure, properties, behavior and the changes they undergo during reactions with other substances. Chemistry also addresses the nature of chemical bonds in chemical compounds.

In the scope of its subject, chemistry occupies an intermediate position between physics and biology. It is sometimes called the central science because it provides a foundation for understanding both basic and applied scientific disciplines at a fundamental level. For example, chemistry explains aspects of plant growth (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 (cosmochemistry), how medications work (pharmacology), and how to collect DNA evidence at a crime scene (forensics).

Chemistry has existed under various names since ancient times. It has evolved, and now chemistry encompasses various areas of specialisation, or subdisciplines, that continue to increase in number and interrelate to create further interdisciplinary fields of study. The applications of various fields of chemistry are used frequently for economic purposes in the chemical industry. (Full article...)

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Enzymes are proteins that accelerate, or catalyze, chemical reactions. In these reactions, the molecules at the beginning of the process are called substrates, and the enzyme converts these into different molecules, the products. Almost all processes in the cell need enzymes in order to occur at significant rates. Since enzymes are extremely selective for their substrates and speed up only a few reactions from among many possibilities, the set of enzymes made in a cell determines which metabolic pathways occur in that cell.

Enzymes are known to catalyze about 4,000 reactions. However, not all biological catalysts are proteins, since some RNA molecules called ribozymes can also catalyze reactions. Enzymes are usually named according to the reaction they catalyze. Typically the suffix -ase is added to the name of the substrate (e.g., lactase is the enzyme that cleaves lactose) or the type of reaction (e.g., DNA polymerase forms DNA polymers).

Like all catalysts, enzymes work by providing an alternative path of lower activation energy for a reaction and dramatically accelerating its rate. Some enzymes can make their conversion of substrate to product occur many millions of times faster. For example, the reaction catalysed by orotidine 5'-phosphate decarboxylase will consume half of its substrate in 78 million years if no enzyme is present. However, when the decarboxylase is added, the same process takes just 25 milliseconds. Chemically, enzymes are like any catalyst and are not consumed in chemical reactions, nor do they alter the equilibrium of a reaction. However, enzymes do differ from most other catalysts by being much more specific.

Enzyme activity can be affected by other molecules. Inhibitors are molecules that decrease enzyme activity, and activators are molecules that increase activity. Drugs and poisons are often enzyme inhibitors.

Some enzymes are used commercially, for example, in the synthesis of antibiotics. In addition, some household cleaning products use enzymes to speed up chemical reactions (e.g., enzymes in biological washing powders break down protein or fat stains on clothes).

Subcategories

Fields of Chemistry

History and Philosophy of Chemistry

Many chemists have an interest in the history of chemistry. Those with philosophical interests will be interested that the philosophy of chemistry has quite recently developed along a path somewhat different from the general philosophy of science.

Other articles that might interest you are:

There is a Wikipedia Project on the History of Science.

Chemistry Resources

Wikipedia:WikiProject Chemicals/Data is a collection of links and references that are useful for chemistry-related works. This includes free online chemical databases, publications, patents, computer programs, and various tools.

unit-conversion.info A good place to figure out what equals what.

General Chemistry Online Clear text and comprehensive coverage of general chemistry topics by Fred Senese, Dept. of Chemistry Frostburg State University

General Chemistry Demonstration at Purdue Video clips (and descriptions) of lecture demonstrations.

Chemistry Webercises Directory A large listing of chemistry resources maintained by Steven Murov, Emeritus Chemistry Professor Modesto Junior College.

MathMol MathMol (Mathematics and Molecules) is a good starting point for those interested in the field of molecular modeling.

ABC-Chemistry A directory of free full-text journals in chemistry, biochemistry and related subjects.

The Element Song A goofy little song about all of the elements.

Selected image

Malachite

Malachite is a carbonate mineral, copper(II) carbonate hydroxide Cu₂CO₃(OH)₂. It crystallizes in the monoclinic crystal system, and most often forms botryoidal, fibrous, or stalagmitic masses. Its beauty may be seen most strikingly in the Malachite Room at the Hermitage in Saint Petersburg.

Selected biography

Fritz Haber (1868-1934) was a German chemist, known as "the father of chemical warfare" due to his work in developing and deploying chlorine and other poisonous gases for use in World War I. Along with Carl Bosch, he developed the Haber process, which is the catalytic formation of ammonia from hydrogen and atmospheric nitrogen under conditions of relatively low temperature and high pressure. This is considered an important milestone in industrial chemistry, and he received the 1918 Nobel Prize in Chemistry for this work. As part of his work in chemical warfare, he developed gas masks with absorbent filters, and formulated a mathematical relationship between gas concentration and necessary exposure time to induce death, known as Haber's rule. He is also associated with the development of the cyanide formulation, Zyklon B.

Techniques used by chemists

Distillation

Catalysis - Chromatography - Combustion - Crystallization - Decantation - Distillation - Electrolysis - Extraction - Filtration - Fractionation - Reflux - Spectrometry - Sublimation - Titration - Standard addition - Isotope dilution

Equipment used by chemists

Beaker

Chemistry in society

Acid rain - Air pollution - Anabolic steroids - Asbestos - Aspartame - Aspirin - CFCs - Cholesterol - Carbohydrates - Carbon dioxide - Chemical warfare - Enzymes - Fat - Fatty acid - Free radicals - Fuel cell - Gasoline - Green chemistry - Hormonal contraception - Insulin - Nuclear fuel - Nuclear fusion - Nylon - Ozone - Paracetamol - Penicillin - Plastic - Psychoactive drugs - Radioactive waste - Smog - Soil contamination - Sugar - Tamiflu - Viagra - Vitamins

Chemistry in industry

Types of chemical industry: Agrochemicals - Chemical industry - Organometallic chemistry - Oleochemicals - Paints - Petrochemicals - Pharmaceuticals - Polymers
Companies: AstraZeneca - Bayer - BP - BASF - Bristol-Myers Squibb - DowDuPont - Evonik Industries - ExxonMobil - Linde plc - Mitsubishi - Monsanto - Nestlé - OSI - Shell - Sigma-Aldrich - Sasol - Total - GlaxoSmithKline - Teva

WikiProjects

Chemistry - Chemicals - Elements - Polymers - Rocks and minerals - Science

Topics

Periodic Table

Group	1	2	3	4	5	6	7	8	9	10	11	12	13	14	15	16	17	18
	Hydrogen & alkali metals	Alkaline earth metals											Triels	Tetrels	Pnictogens	Chalcogens	Halogens	Noble gases
Period 1	Hydrogen1H1.0080																	Helium2He4.0026
2	Lithium3Li6.94	Beryllium4Be9.0122											Boron5B10.81	Carbon6C12.011	Nitrogen7N14.007	Oxygen8O15.999	Fluorine9F18.998	Neon10Ne20.180
3	Sodium11Na22.990	Magnesium12Mg24.305											Aluminium13Al26.982	Silicon14Si28.085	Phosphorus15P30.974	Sulfur16S32.06	Chlorine17Cl35.45	Argon18Ar39.95
4	Potassium19K39.098	Calcium20Ca40.078	Scandium21Sc44.956	Titanium22Ti47.867	Vanadium23V50.942	Chromium24Cr51.996	Manganese25Mn54.938	Iron26Fe55.845	Cobalt27Co58.933	Nickel28Ni58.693	Copper29Cu63.546	Zinc30Zn65.38	Gallium31Ga69.723	Germanium32Ge72.630	Arsenic33As74.922	Selenium34Se78.971	Bromine35Br79.904	Krypton36Kr83.798
5	Rubidium37Rb85.468	Strontium38Sr87.62	Yttrium39Y88.906	Zirconium40Zr91.224	Niobium41Nb92.906	Molybdenum42Mo95.95	Technetium43Tc[97]	Ruthenium44Ru101.07	Rhodium45Rh102.91	Palladium46Pd106.42	Silver47Ag107.87	Cadmium48Cd112.41	Indium49In114.82	Tin50Sn118.71	Antimony51Sb121.76	Tellurium52Te127.60	Iodine53I126.90	Xenon54Xe131.29
6	Caesium55Cs132.91	Barium56Ba137.33	Lutetium71Lu174.97	Hafnium72Hf178.49	Tantalum73Ta180.95	Tungsten74W183.84	Rhenium75Re186.21	Osmium76Os190.23	Iridium77Ir192.22	Platinum78Pt195.08	Gold79Au196.97	Mercury80Hg200.59	Thallium81Tl204.38	Lead82Pb207.2	Bismuth83Bi208.98	Polonium84Po[209]	Astatine85At[210]	Radon86Rn[222]
7	Francium87Fr[223]	Radium88Ra[226]	Lawrencium103Lr[266]	Rutherfordium104Rf[267]	Dubnium105Db[268]	Seaborgium106Sg[269]	Bohrium107Bh[270]	Hassium108Hs[269]	Meitnerium109Mt[278]	Darmstadtium110Ds[281]	Roentgenium111Rg[282]	Copernicium112Cn[285]	Nihonium113Nh[286]	Flerovium114Fl[289]	Moscovium115Mc[290]	Livermorium116Lv[293]	Tennessine117Ts[294]	Oganesson118Og[294]

			Lanthanum57La138.91	Cerium58Ce140.12	Praseodymium59Pr140.91	Neodymium60Nd144.24	Promethium61Pm[145]	Samarium62Sm150.36	Europium63Eu151.96	Gadolinium64Gd157.25	Terbium65Tb158.93	Dysprosium66Dy162.50	Holmium67Ho164.93	Erbium68Er167.26	Thulium69Tm168.93	Ytterbium70Yb173.05
			Actinium89Ac[227]	Thorium90Th232.04	Protactinium91Pa231.04	Uranium92U238.03	Neptunium93Np[237]	Plutonium94Pu[244]	Americium95Am[243]	Curium96Cm[247]	Berkelium97Bk[247]	Californium98Cf[251]	Einsteinium99Es[252]	Fermium100Fm[257]	Mendelevium101Md[258]	Nobelium102No[259]

Primordial From decay Synthetic Border shows natural occurrence of the element

Standard atomic weight A_{r, std}(E)^[1]

Ca: 40.078 — Abridged value (uncertainty omitted here)^[2]
Po: [209] — mass number of the most stable isotope

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Sources

^ Meija, Juris; et al. (2016). "Atomic weights of the elements 2013 (IUPAC Technical Report)". Pure and Applied Chemistry. 88 (3): 265–91. doi:10.1515/pac-2015-0305.
^ Prohaska, Thomas; Irrgeher, Johanna; Benefield, Jacqueline; Böhlke, John K.; Chesson, Lesley A.; Coplen, Tyler B.; Ding, Tiping; Dunn, Philip J. H.; Gröning, Manfred; Holden, Norman E.; Meijer, Harro A. J. (2022-05-04). "Standard atomic weights of the elements 2021 (IUPAC Technical Report)". Pure and Applied Chemistry. doi:10.1515/pac-2019-0603. ISSN 1365-3075.

Discover Wikipedia using portals

[CIAAW2013-1] Meija, Juris; et al. (2016). "Atomic weights of the elements 2013 (IUPAC Technical Report)". Pure and Applied Chemistry. 88 (3): 265–91. doi:10.1515/pac-2015-0305.

[CIAAW2021-2] Prohaska, Thomas; Irrgeher, Johanna; Benefield, Jacqueline; Böhlke, John K.; Chesson, Lesley A.; Coplen, Tyler B.; Ding, Tiping; Dunn, Philip J. H.; Gröning, Manfred; Holden, Norman E.; Meijer, Harro A. J. (2022-05-04). "Standard atomic weights of the elements 2021 (IUPAC Technical Report)". Pure and Applied Chemistry. doi:10.1515/pac-2019-0603. ISSN 1365-3075.

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v t e Branches of chemistry
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See also	History of chemistry Nobel Prize in Chemistry Timeline of chemistry of element discoveries "The central science" Chemical reaction Catalysis Chemical element Chemical compound Atom Molecule Ion Chemical substance Chemical bond Alchemy Quantum mechanics
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