fbpx
Wikipedia

Factitious airs

February 21, 2023

Factitious airs was a term used for synthetic gases which emerged around 1670 when Robert Boyle coined the term upon isolating what is now understood to be hydrogen.[1] Factitious means "artificial, not natural",[2] so the term means "man-made gases".

Background

Robert Boyle coined the term Factitious Air upon isolating hydrogen in 1670.[1]

Henry Cavendish (1731–1810) used the term "factitious air" to refer to "any kind of air which is contained in other bodies in an unelastic state, and is produced from thence by art".[3]

An archaic definition from 1747 for the production of factitious air was defined as being caused by: "1- by flow Degrees from Putrefactions and Fermentations of all Kinds; or 2- more expeditiously by some Sorts of chymical Dissolutions of Bodies; or 3- and lastly, almost instantaneously by the Explosion of Gunpowder, and the Mixture or some Kinds of Bodies. Thus, if Paste or Dough with Leaven be placed in an exhausted Receiver, it wall, after some Time, by Fermentation, produce and considerable Quantity of Air, which will appear very plainly by the Sinking the Quicksilver in the Gage. Thus also any Animal or Vegetable Substance, putrifying in Vacuo, will produce the same Effect."[4]

There are significant inconsistencies in the archaic nomenclature due to the limited knowledge of chemistry and primitive analytical technology of the era (i.e. based on the chemistry, it is clear the terms were mistakenly assigned to more than one gas by different investigators). Furthermore, in most cases the gases were not pure.

Factitious Airs

Names used for factitious airs may have included:[citation needed]

ammonia

  • ammonical gas[5]
  • ammoniac[6]
  • volatile alkali[7]
  • alkaline air[7]
  • gaseous ammonia[7]
  • azoturetted hydrogen[7]

carbon dioxide

fixed air[8]

Fixed air, or fixible air, is an ancient term for carbon dioxide[9]

Joseph Priestley credited Joseph Black for discovering and coining "fixed air", which was thought to exist in a fixed state in alkaline salts, chalk, and other calcareous substances. Black considered substances containing fixed air to be "mild", and upon expulsion of the gas by heating the resulting state is "caustic" by corroding or burning plants and animals (e.g. CO2 released by chalk upon decomposition to calcium oxide). In other words, the fixed air (also known as fixible air) was thought to be fixated within a corrosive molecule.

Priestley likewise credited the discovery of fixed air to contributions from several scientists including: David Macbride, John Pringle, William Brownrigg (regarded carbonated water to have an acidulous taste), Stephen Hales, and many others.[10][11][12]

Henry Cavendish provided a definition: "By fixed air, I mean that particular species of factitious air, which is separated from alkaline substances by solution in acids or by calcination".[3] Cavendish essentially defined potassium oxide or calcium oxide as a base, which can contain a fixated air within its composition, setting the stage for the historical definition of carbonate.

carbonic acid[9][13]

According to Claude Louis Berthollet, "What has long been called fixed, or fixible air, being really an acid in the state of gas, has of late received several new denominations. It has been called aerial acid, as existing very readily in the state of air, or more properly of gas, and plentifully in the atmosphere. The chalky acid, as procurable in large quantities from chalk, or other mild calcareous substances. The name given to it in this essay is derived from the knowledge of its composition, as lately ascertained by the French Chemists to consist of the elementary part of charcoal, named charbone, or char, united with oxygen, or the acidifying principle. Hence it is called, with strict propriety, carbonic acid in general; carbonic acid gas when in the aerial form; and carbonic acid liquor when combined with or dissolved in water."[14]

By French Chemists, Berthollet is generally referring to Laviosier's oxidation discoveries.[15] The name oxygen is derived from Greek with oxy meaning acid, and gene to mean forming/expression, therefore carbonic acid is simply the union of carbon with oxygen (Laviosier's original degrees of oxidation could not fit the concept of carbon monoxide as it was based on diamond, graphite, coal and carbonic acid[15])

carbonate

Carbonate was defined as "a compound formed by the union of carbonic acid with an earth, alkali, or metallic oxide [...] they are distinguished by the property of effervescing on the addition of an acid"[7] The definition expands upon fixed air being fixated within carbonate to suggest carbonic acid is a constituent of carbonate, therefore in the ancient language the suffix "-ic acid" and "-ate" were not interchangeable.

The modern definition is similar, although equipped with the molecular knowledge of carbonate's structure and reassignment of the meaning of carbonic acid from CO2 to the H2CO3 molecule, "Carbonates are the salts of carbonic acids. They form when a positively charged metal ion comes into contact with the oxygen atoms of the carbonate ion."[16]

bicarbonate

Bicarbonate, originally known as bi-carbonate of potash, was coined by William Hyde Wollaston in 1814 based on hydrocarbonate's potential to release two molar equivalents of carbon dioxide (referred to as carbonic acid at the time) as released by both potassium hydrocarbonate (initially known as carbonate of potash, suggested to become bicarbonate) and potassium carbonate (vaguely known as subcarbonate, suggested to become carbonate) upon formation of potash (potassium oxide[17]).[13]

Bicarbonates have historically been defined as, "combinations of the bases with the carbonic acid, in which two atoms of the latter are united to one of the former"[7] In other words, potash (potassium oxide) was well-understood to be a caustic base and essentially the core molecule that subsequent chemical nomenclature was built upon. Carbonate of potash (potassium carbonate) must contain a carbonic acid species fixated within potash's alternative composition (see fixed air above). Since "bi-carbonate of potash" liberates a double dose of carbonic acid, to distinguish between the similar substances, the prefix bi- indicates the bi-carbonate of potash (potassium hydrocarbonate) contains twice as much CO2 fixated in this form potash's composition relative to the carbonate of potash. The same ancient logic (prior to the understanding of molecular formulas and reaction stoichiometry) applied to soda, carbonate of soda, and bicarbonate of soda.

The word saleratus, from Latin sal æratus (meaning "aerated salt"), was widely used beginning in the 1840s.[18][19]

carbonic acid gas

Carbonic acid gas was an ancient term to specify the gaseous state of carbonic acid (synonymous with carbonic acid). It is listed as an alternative name for carbon dioxide in PubChem.[20] In 1796 externally applied carbonic acid gas to the epidermis was reported to treat breast cancer; and inhalation treated tuberculosis and other indications.[21]

miscellaneous historical names

carbon monoxide

Further information: Gasotransmitter, Carbon monoxide-releasing molecules, and Heme oxygenase
Further information: Carboxyhemoglobin, Carbon monoxide, and Carbon monoxide poisoning
  • hydrocarbonate[25][26][27]
    • Water gas prepared by passing steam over charcoal/coke. Alternatively prepared from unspecified alcohol and sulphuric acid.[28]
    • Hydrocarbonate was recognized to brighten venous blood and compete with oxygen around 1796,[21] although credit is widely awarded to Claude Bernard's work in the mid 1850s.[29]
  • hydrocarbonous acid[30]
  • heavy inflammable air[21]
  • carbonated hydrogene[21]
  • carbonic oxide / protoxide
    • William Cruickshank discovered the composition of carbon monoxide and named it gaseous oxide of carbon.[31][32][33] Cruickshank recognized water and hydrogen were not a constituent of the combustible base which contained the same ingredients as carbonic acid, although containing less oxygen.
    • Carbonic oxide was identified in the intestine of cattle in the 1800s, marking a trace origin for endogenous carbon monoxide.[22]
  • carbonous oxyd[34]
    • The name carbonous oxyd relative to carbonic acid was once considered analogous to nitrous oxide to nitric acid based on the oxide not having sufficient oxygen to form the acid.[34]

hydrogen

Hydrogen was initially thought to be toxic based on experiments by Lavoisier, however, the purity of the hydrogen was taken into question when later experiments discovered hydrogen to effectively treat measles in the 1790s.[21]

  • factitious air (Boyle)
  • hydrogene - means "water former" from hydro- and gene-[35]
  • inflammable air[35]
  • inflammable gas[35]
  • base of inflammable air[35]
  • zincic inflammable air[21]
  • martial inflammable air[21]

hydrogen sulfide

  • sulphurated hydrogene
    • therapeutic application of H2S for gastrointestinal disorders dates as early as 1806[36]
  • hepatic air[37][24]

methane

  • marsh gas/air
  • carburetted hydrogen[7]
  • light carburetted hydrogen[7]
  • heavy inflammable air[7]
  • dicarburet of hydrogen[7]
  • fire-damp[7]
  • gas of the acetates[38]

nitrogen

  • azotic air
  • azote - means lifeless,[35] or a-zote for "not life",[39] generally regarded as the solid constituent whereas azotic gas was the gaseous form.[14]
  • phlogisticated air[35]
  • atmospherical memphitic gas[14]
  • mephitis[35]
  • nitrogene[21]
  • base of mephitis[35]
  • stickstoffgas[7]

nitrous oxide

  • factitious air (Davy)
  • dephlogisticated nitrous air[40]
  • protoxide of nitrogen[40]
  • hypo-nitrous oxide[41]
  • gaseous oxide of azote[42]

oxygen

Blood has been understood to absorb and deliver oxygen since the mid 1790s.[21]

  • vital air[35]
  • highly respirable air[9]
  • pure air[9]
  • phosoxygen[43]
  • dephlogisticated air[35]
  • empyreal air[35]
  • base of vital air[35]
  • oxy-gene means acid-former or acid-expression, once thought all acids contained oxygen.[35][39]

miscellaneous

  • animal inflammable air[21]

Therapeutics

The study of these airs interfaced with phlogiston theory.

The therapeutic potential of factitious airs were widely investigated with significant contributions by Thomas Beddoes, James Watt, James Lind, Humphry Davy, and others at the Pneumatic Institution.[44][25][45] Georgiana Cavendish, Duchess of Devonshire (related to Henry through marriage) had a profound interest in chemistry with interest in Henry's research in pneumatic chemistry.[46] She played a pivotal role in advancing the study of factitious airs through partnering with Thomas Beddoes to establish the Pneumatic Institution.[46]

Tuberculosis was a primary disease physicians had attempted to treat with factitious airs, particularly since James Watt's daughter died of the disease.[46] John Carmichael had reported successfully treating a patient suffering from tuberculosis using hydrocarbonate.[47][25] This application of factitious air was pioneering research relevant to the modern era as carbon monoxide currently has preclinical evidence of treating Mycobacterium tuberculosis infection progression by inducing dormancy, stimulating host immune response, and ameliorating host inflammation.[48]

References

  1. ^ a b Mattson, Bruce. "A Brief History of the Study of Gas Chemistry" (PDF). mattson.creighton.edu/.{{cite web}}: CS1 maint: url-status (link)
  2. ^ "Factitious". dictionary.cambridge.org. Retrieved 23 March 2021.
  3. ^ a b Cavendish H (31 December 1766). "XIX. Three papers, containing experiments on factitious air". Philosophical Transactions of the Royal Society of London. 56: 141–184. doi:10.1098/rstl.1766.0019. S2CID 186209704.
  4. ^ Martin, B (1747). Philosophia Britannica: Or, A New & Comprehensive System of the Newtonian Philosophy, Astronomy & Geomgraphy: In a Course of Twelve Lectures, with Notes, Containing the Physical, Mechanical, Geometrical, & Experimental Proofs & Illustrations of All the Principal Propositions in Every Branch of Natural Science. Also a Particular Account of the Invention ... of All the Considerable Instruments, Engines, & Machines ... C. Micklewright & Company. p. 3.
  5. ^ Cadell Jr., T (1795). Minutes of the Society for Philosophical Experiments and Conversations. London. pp. 31, 35.
  6. ^ Nisbet, William (1805). A general dictionary of chemistry. p. 377.
  7. ^ a b c d e f g h i j k l m n Cooley, AJ (1845). A Cyclopaedia of Practical Receipts: And Collateral Information in the Arts, Manufacutres, and Trades, Including Medicine, Pharmacy, and Domestic Economy. John Churchill. p. 252.
  8. ^ Foregger, R (March 1957). "Joseph Black and the Identification of Carbon Dioxide". Anesthesiology. 18 (2): 257–264. doi:10.1097/00000542-195703000-00011. ISSN 0003-3022. PMID 13411612. S2CID 11759504.
  9. ^ a b c d Archer, C (1798). Miscellaneous Observations on the Effects of Oxygen on the animal and vegetable systems, etc. pt. 1. R. Cruttwell. pp. 34, 99, 137.
  10. ^ Priestley, J (1774). Directions for Impregnating Water with Fixed Air: In Order to Communicate to it the Peculiar Spirit and Virtues of Pyrmont Water, and Other Mineral Waters of a Similar Nature. J. Johnson.
  11. ^ a b Brande, W. T.; Cox, George William (1865). A Dictionary of Science, Literature, & Art: Comprising the Definitions and Derivations of the Scientific Terms in General Use, Together with the History and Descriptions of the Scientific Principles of Nearly Every Branch of Human Knowledge. Longmans, Green. p. 426.
  12. ^ Scientific American Supplement: "History of Soda Water". Munn and Company. 1894. p. 15793.
  13. ^ a b Wollaston, W. H. (December 1814). "I. A Synoptic scale of chemical equivalents". Philosophical Transactions of the Royal Society of London. 104: 1–22. doi:10.1098/rstl.1814.0001. ISSN 0261-0523. S2CID 96774986.
  14. ^ a b c d Berthollet, C. L. (1790). Essay on the New Method of Bleaching, by means of oxygenated muriatic acid; with an account of the nature, preparation, and properties, of that acid. Trustees of the Linen&Hempen Manufacture. pp. 12–13, 43.
  15. ^ a b Foell, H. "History of Carbon". University of Kiel. Retrieved 2021-11-01.{{cite web}}: CS1 maint: url-status (link)
  16. ^ "Carbon Oxides and Carbonates | Introduction to Chemistry". courses.lumenlearning.com. Retrieved 2021-11-10.
  17. ^ Van Slyke, L. L. (1900). Bulletin No. 55. Department of Agriculture. p. 17.
  18. ^ "Definition of SALERATUS". www.merriam-webster.com. Retrieved 2021-11-10.
  19. ^ Perry, C (November 1996). "Tiny Bubbles". Los Angeles Times. Retrieved 2021-11-10.{{cite web}}: CS1 maint: url-status (link)
  20. ^ PubChem. "Carbon dioxide". pubchem.ncbi.nlm.nih.gov. Retrieved 2021-10-23.
  21. ^ a b c d e f g h i j Beddoes, T (1796). Considerations on the Medicinal Use, and on the Production of Factitious Airs: Part I. By Thomas Beddoes, M.D. Part II. By James Watt, Engineer. Bulgin and Rosser. pp. 10–12, 30, 37, 82.
  22. ^ a b c d e f g h i j k Gmelin, L (1849). Hand-book of Chemistry: Inorganic chemistry. Cavendish Society. p. 87.
  23. ^ Cooley, AJ (1897). Cooley's Cyclopædia of Practical Receipts and Collateral Information in the Arts, Manufactures, Professions, and Trades, Including Medicine, Pharmacy, and Domestic Economy: Designed as a Comprehensive Supplement to the Pharmacopœia and General Book of Reference for the Manufacturer, Tradesman, Amateur, and Heads of Families. D. Appleton.
  24. ^ a b The English Encyclopædia: Being a Collection of Treatises, and a Dictionary of Terms, Illustrative of the Arts and Sciences. G. Kearsley ..., sold. 1802. pp. 384, 411.
  25. ^ a b c Hopper, Christopher P.; Zambrana, Paige N.; Goebel, Ulrich; Wollborn, Jakob (June 2021). "A brief history of carbon monoxide and its therapeutic origins". Nitric Oxide. 111–112: 45–63. doi:10.1016/j.niox.2021.04.001. PMID 33838343. S2CID 233205099.
  26. ^ Beddoes, T (1797). The Analytical Review, Or History of Literature, Domestic and Foreign, on an Enlarged Plan, "Beddoes and Watt on Factitious Airs". p. 385.
  27. ^ Franke, T (1855). Technological Dictionary: English-German-French. Kreidel & Niedner. pp. 38, 266.
  28. ^ Davy, Humphry (1800). Chemical Researches. p. 382.
  29. ^ Mellor, JW (1924). Supplement to Mellor's Comprehensive Treatise on Inorganic and Theoretical Chemistry: pt. B1. Boron-Hydrogen compounds. Longmans, Green and Company. pp. 456–472.
  30. ^ Read, J (1824). An appeal to the medical profession, on the utility of the improved patent syringe, with directions for its several uses, "Dr. Smith's Principles of Forensic Medicine". p. 229.
  31. ^ Mellor, JW (1924). Supplement to Mellor's Comprehensive Treatise on Inorganic and Theoretical Chemistry: pt. B1. Boron-Hydrogen compounds, "22. The History of Carbon Monoxide". Longmans, Green and Company. p. 907.
  32. ^ Harrington (1801). The Gentleman's Magazine. E. Cave. pp. 519–521.
  33. ^ Murray, J (1819). A System of Chemistry: In Four Volumes. F. Pillans; and for Longman, Hurst, Rees, Orme & Brown, London. pp. 333–334.
  34. ^ a b Aikin, A; Aikin, CR (1807). A Dictionary of Chemistry and Mineralogy: With an Account of the Processes Employed in Many of the Most Important Chemical Manufactures. To which are Added a Description of Chemical Apparatus, and Various Useful Tables of Weights and Measures, Chemical Instruments ... Illustrated with 15 Engravings. J. and A. Arch. p. 244.
  35. ^ a b c d e f g h i j k l m "Lavoisier's Elements of Chemistry". web.lemoyne.edu. Retrieved 2021-10-23.
  36. ^ Forbes, W (January 1806). "On the Use of Sulphurated Hydrogen in Stomachic Complaints". Edinburgh Medical and Surgical Journal. 2 (5): 9–10. ISSN 0963-4932. PMC 5761423. PMID 30330024.
  37. ^ Murray, JAH; Bradley, H; Craigie, Sir WA; Onions, CT (1901). A New English Dictionary on Historical Principles: Founded Mainly on the Materials Collected by the Philological Society. Clarendon Press. p. 487.
  38. ^ Cooley, AJ (1872). Cooley's Cyclopaedia of Practical Receipts and Collateral Information in the Arts, Manufactures, Professions, and Trades, Including Medicine, Pharmacy and Domestic Economy: Designed as a Comprehensive Supplement to the Pharmacopœoeia and General Book of Reference for the Manufacturer, Tradesman, Amateur, and Heads of Families. J. & A. Churchill.
  39. ^ a b Ringnes, Vivi (September 1989). "Origin of the names of chemical elements". Journal of Chemical Education. 66 (9): 731. Bibcode:1989JChEd..66..731R. doi:10.1021/ed066p731. ISSN 0021-9584.
  40. ^ a b Barker, George T. (1870). Instructions in the Preparation, Administration, and Properties of Nitrous Oxide, Protoxide of Nitrogen, Or Laughing Gas. Rubencame and Barker. p. 9.
  41. ^ Guilford, S. H. (1887). Nitrous Oxide; Its Properties, Method of Administration and Effects. Spangler & Davis. p. 5.
  42. ^ Warren, E (1847). Some Account of the Letheon: Or, Who is the Discoverer?. Dutton and Wentworth. p. 28.
  43. ^ Beddoes, T (1799). Contributions to Physical and Medical Knowledge: Principally from the West of England. Biggs & Cottle. p. 60.
  44. ^ Levere TH (July 1977). "Dr. Thomas Beddoes and the establishment of his pneumatic institution: a tale of three presidents". Notes and Records of the Royal Society of London. 32 (1): 41–9. doi:10.1098/rsnr.1977.0005. PMID 11615622. S2CID 27322059.
  45. ^ Watt, J (1820). The Monthly Magazine, "Original Letters of Mr. Watt to Dr. Lind; March 1795". R. Phillips. p. 244.
  46. ^ a b c Bergman NA (April 1998). "Georgiana, Duchess of Devonshire, and Princess Diana: a parallel". Journal of the Royal Society of Medicine. 91 (4): 217–9. doi:10.1177/014107689809100414. PMC 1296647. PMID 9659313.
  47. ^ Dyck E, Stewart L (2016-03-24). The Uses of Humans in Experiment: Perspectives from the 17th to the 20th Century. BRILL. ISBN 978-90-04-28671-9.
  48. ^ Chinta KC, Saini V, Glasgow JN, Mazorodze JH, Rahman MA, Reddy D, et al. (September 2016). "The emerging role of gasotransmitters in the pathogenesis of tuberculosis". Nitric Oxide. 59: 28–41. doi:10.1016/j.niox.2016.06.009. PMC 5028278. PMID 27387335.

February 21, 2023
factitious, airs, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, march, 20. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Factitious airs news newspapers books scholar JSTOR March 2021 Learn how and when to remove this template message Factitious airs was a term used for synthetic gases which emerged around 1670 when Robert Boyle coined the term upon isolating what is now understood to be hydrogen 1 Factitious means artificial not natural 2 so the term means man made gases Contents 1 Background 2 Factitious Airs 2 1 ammonia 2 2 carbon dioxide 2 2 1 fixed air 8 2 2 2 carbonic acid 9 13 2 2 2 1 carbonate 2 2 2 2 bicarbonate 2 2 3 carbonic acid gas 2 2 4 miscellaneous historical names 2 3 carbon monoxide 2 4 hydrogen 2 5 hydrogen sulfide 2 6 methane 2 7 nitrogen 2 8 nitrous oxide 2 9 oxygen 2 10 miscellaneous 3 Therapeutics 4 ReferencesBackground EditRobert Boyle coined the term Factitious Air upon isolating hydrogen in 1670 1 Henry Cavendish 1731 1810 used the term factitious air to refer to any kind of air which is contained in other bodies in an unelastic state and is produced from thence by art 3 An archaic definition from 1747 for the production of factitious air was defined as being caused by 1 by flow Degrees from Putrefactions and Fermentations of all Kinds or 2 more expeditiously by some Sorts of chymical Dissolutions of Bodies or 3 and lastly almost instantaneously by the Explosion of Gunpowder and the Mixture or some Kinds of Bodies Thus if Paste or Dough with Leaven be placed in an exhausted Receiver it wall after some Time by Fermentation produce and considerable Quantity of Air which will appear very plainly by the Sinking the Quicksilver in the Gage Thus also any Animal or Vegetable Substance putrifying in Vacuo will produce the same Effect 4 There are significant inconsistencies in the archaic nomenclature due to the limited knowledge of chemistry and primitive analytical technology of the era i e based on the chemistry it is clear the terms were mistakenly assigned to more than one gas by different investigators Furthermore in most cases the gases were not pure Factitious Airs EditNames used for factitious airs may have included citation needed ammonia Edit ammonical gas 5 ammoniac 6 volatile alkali 7 alkaline air 7 gaseous ammonia 7 azoturetted hydrogen 7 carbon dioxide Edit fixed air 8 Edit Fixed air or fixible air is an ancient term for carbon dioxide 9 Joseph Priestley credited Joseph Black for discovering and coining fixed air which was thought to exist in a fixed state in alkaline salts chalk and other calcareous substances Black considered substances containing fixed air to be mild and upon expulsion of the gas by heating the resulting state is caustic by corroding or burning plants and animals e g CO2 released by chalk upon decomposition to calcium oxide In other words the fixed air also known as fixible air was thought to be fixated within a corrosive molecule Priestley likewise credited the discovery of fixed air to contributions from several scientists including David Macbride John Pringle William Brownrigg regarded carbonated water to have an acidulous taste Stephen Hales and many others 10 11 12 Henry Cavendish provided a definition By fixed air I mean that particular species of factitious air which is separated from alkaline substances by solution in acids or by calcination 3 Cavendish essentially defined potassium oxide or calcium oxide as a base which can contain a fixated air within its composition setting the stage for the historical definition of carbonate carbonic acid 9 13 Edit According to Claude Louis Berthollet What has long been called fixed or fixible air being really an acid in the state of gas has of late received several new denominations It has been called aerial acid as existing very readily in the state of air or more properly of gas and plentifully in the atmosphere The chalky acid as procurable in large quantities from chalk or other mild calcareous substances The name given to it in this essay is derived from the knowledge of its composition as lately ascertained by the French Chemists to consist of the elementary part of charcoal named charbone or char united with oxygen or the acidifying principle Hence it is called with strict propriety carbonic acid in general carbonic acid gas when in the aerial form and carbonic acid liquor when combined with or dissolved in water 14 By French Chemists Berthollet is generally referring to Laviosier s oxidation discoveries 15 The name oxygen is derived from Greek with oxy meaning acid and gene to mean forming expression therefore carbonic acid is simply the union of carbon with oxygen Laviosier s original degrees of oxidation could not fit the concept of carbon monoxide as it was based on diamond graphite coal and carbonic acid 15 carbonate Edit Carbonate was defined as a compound formed by the union of carbonic acid with an earth alkali or metallic oxide they are distinguished by the property of effervescing on the addition of an acid 7 The definition expands upon fixed air being fixated within carbonate to suggest carbonic acid is a constituent of carbonate therefore in the ancient language the suffix ic acid and ate were not interchangeable The modern definition is similar although equipped with the molecular knowledge of carbonate s structure and reassignment of the meaning of carbonic acid from CO2 to the H2CO3 molecule Carbonates are the salts of carbonic acids They form when a positively charged metal ion comes into contact with the oxygen atoms of the carbonate ion 16 bicarbonate Edit Bicarbonate originally known as bi carbonate of potash was coined by William Hyde Wollaston in 1814 based on hydrocarbonate s potential to release two molar equivalents of carbon dioxide referred to as carbonic acid at the time as released by both potassium hydrocarbonate initially known as carbonate of potash suggested to become bicarbonate and potassium carbonate vaguely known as subcarbonate suggested to become carbonate upon formation of potash potassium oxide 17 13 Bicarbonates have historically been defined as combinations of the bases with the carbonic acid in which two atoms of the latter are united to one of the former 7 In other words potash potassium oxide was well understood to be a caustic base and essentially the core molecule that subsequent chemical nomenclature was built upon Carbonate of potash potassium carbonate must contain a carbonic acid species fixated within potash s alternative composition see fixed air above Since bi carbonate of potash liberates a double dose of carbonic acid to distinguish between the similar substances the prefix bi indicates the bi carbonate of potash potassium hydrocarbonate contains twice as much CO2 fixated in this form potash s composition relative to the carbonate of potash The same ancient logic prior to the understanding of molecular formulas and reaction stoichiometry applied to soda carbonate of soda and bicarbonate of soda The word saleratus from Latin sal aeratus meaning aerated salt was widely used beginning in the 1840s 18 19 carbonic acid gas Edit Carbonic acid gas was an ancient term to specify the gaseous state of carbonic acid synonymous with carbonic acid It is listed as an alternative name for carbon dioxide in PubChem 20 In 1796 externally applied carbonic acid gas to the epidermis was reported to treat breast cancer and inhalation treated tuberculosis and other indications 21 miscellaneous historical names Edit gas silvestre 11 Ancient origin for fixed air by Jan Baptist van Helmont Spiritus sylvestris 22 aerial acid 7 acid of air 22 luft saeure 22 carbonic anhydride 23 Gas acide carbonique 22 Gas carbonicum 22 chalky acid 14 acid of chalk 22 kriedesaeure 22 kohlensaeures gas 22 choke damp 7 cretaceous acid 24 Acide mephitique 22 Mephitic air 22 deutoxide of carboncarbon monoxide Edit Further information Gasotransmitter Carbon monoxide releasing molecules and Heme oxygenase Further information Carboxyhemoglobin Carbon monoxide and Carbon monoxide poisoning hydrocarbonate 25 26 27 Water gas prepared by passing steam over charcoal coke Alternatively prepared from unspecified alcohol and sulphuric acid 28 Hydrocarbonate was recognized to brighten venous blood and compete with oxygen around 1796 21 although credit is widely awarded to Claude Bernard s work in the mid 1850s 29 hydrocarbonous acid 30 heavy inflammable air 21 carbonated hydrogene 21 carbonic oxide protoxide William Cruickshank discovered the composition of carbon monoxide and named it gaseous oxide of carbon 31 32 33 Cruickshank recognized water and hydrogen were not a constituent of the combustible base which contained the same ingredients as carbonic acid although containing less oxygen Carbonic oxide was identified in the intestine of cattle in the 1800s marking a trace origin for endogenous carbon monoxide 22 carbonous oxyd 34 The name carbonous oxyd relative to carbonic acid was once considered analogous to nitrous oxide to nitric acid based on the oxide not having sufficient oxygen to form the acid 34 hydrogen Edit Hydrogen was initially thought to be toxic based on experiments by Lavoisier however the purity of the hydrogen was taken into question when later experiments discovered hydrogen to effectively treat measles in the 1790s 21 factitious air Boyle hydrogene means water former from hydro and gene 35 inflammable air 35 inflammable gas 35 base of inflammable air 35 zincic inflammable air 21 martial inflammable air 21 hydrogen sulfide Edit sulphurated hydrogene therapeutic application of H2S for gastrointestinal disorders dates as early as 1806 36 hepatic air 37 24 methane Edit marsh gas air carburetted hydrogen 7 light carburetted hydrogen 7 heavy inflammable air 7 dicarburet of hydrogen 7 fire damp 7 gas of the acetates 38 nitrogen Edit azotic air azote means lifeless 35 or a zote for not life 39 generally regarded as the solid constituent whereas azotic gas was the gaseous form 14 phlogisticated air 35 atmospherical memphitic gas 14 mephitis 35 nitrogene 21 base of mephitis 35 stickstoffgas 7 nitrous oxide Edit factitious air Davy dephlogisticated nitrous air 40 protoxide of nitrogen 40 hypo nitrous oxide 41 gaseous oxide of azote 42 oxygen Edit Blood has been understood to absorb and deliver oxygen since the mid 1790s 21 vital air 35 highly respirable air 9 pure air 9 phosoxygen 43 dephlogisticated air 35 empyreal air 35 base of vital air 35 oxy gene means acid former or acid expression once thought all acids contained oxygen 35 39 miscellaneous Edit animal inflammable air 21 Therapeutics EditThe study of these airs interfaced with phlogiston theory The therapeutic potential of factitious airs were widely investigated with significant contributions by Thomas Beddoes James Watt James Lind Humphry Davy and others at the Pneumatic Institution 44 25 45 Georgiana Cavendish Duchess of Devonshire related to Henry through marriage had a profound interest in chemistry with interest in Henry s research in pneumatic chemistry 46 She played a pivotal role in advancing the study of factitious airs through partnering with Thomas Beddoes to establish the Pneumatic Institution 46 Tuberculosis was a primary disease physicians had attempted to treat with factitious airs particularly since James Watt s daughter died of the disease 46 John Carmichael had reported successfully treating a patient suffering from tuberculosis using hydrocarbonate 47 25 This application of factitious air was pioneering research relevant to the modern era as carbon monoxide currently has preclinical evidence of treating Mycobacterium tuberculosis infection progression by inducing dormancy stimulating host immune response and ameliorating host inflammation 48 References Edit a b Mattson Bruce A Brief History of the Study of Gas Chemistry PDF mattson creighton edu a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Factitious dictionary cambridge org Retrieved 23 March 2021 a b Cavendish H 31 December 1766 XIX Three papers containing experiments on factitious air Philosophical Transactions of the Royal Society of London 56 141 184 doi 10 1098 rstl 1766 0019 S2CID 186209704 Martin B 1747 Philosophia Britannica Or A New amp Comprehensive System of the Newtonian Philosophy Astronomy amp Geomgraphy In a Course of Twelve Lectures with Notes Containing the Physical Mechanical Geometrical amp Experimental Proofs amp Illustrations of All the Principal Propositions in Every Branch of Natural Science Also a Particular Account of the Invention of All the Considerable Instruments Engines amp Machines C Micklewright amp Company p 3 Cadell Jr T 1795 Minutes of the Society for Philosophical Experiments and Conversations London pp 31 35 Nisbet William 1805 A general dictionary of chemistry p 377 a b c d e f g h i j k l m n Cooley AJ 1845 A Cyclopaedia of Practical Receipts And Collateral Information in the Arts Manufacutres and Trades Including Medicine Pharmacy and Domestic Economy John Churchill p 252 Foregger R March 1957 Joseph Black and the Identification of Carbon Dioxide Anesthesiology 18 2 257 264 doi 10 1097 00000542 195703000 00011 ISSN 0003 3022 PMID 13411612 S2CID 11759504 a b c d Archer C 1798 Miscellaneous Observations on the Effects of Oxygen on the animal and vegetable systems etc pt 1 R Cruttwell pp 34 99 137 Priestley J 1774 Directions for Impregnating Water with Fixed Air In Order to Communicate to it the Peculiar Spirit and Virtues of Pyrmont Water and Other Mineral Waters of a Similar Nature J Johnson a b Brande W T Cox George William 1865 A Dictionary of Science Literature amp Art Comprising the Definitions and Derivations of the Scientific Terms in General Use Together with the History and Descriptions of the Scientific Principles of Nearly Every Branch of Human Knowledge Longmans Green p 426 Scientific American Supplement History of Soda Water Munn and Company 1894 p 15793 a b Wollaston W H December 1814 I A Synoptic scale of chemical equivalents Philosophical Transactions of the Royal Society of London 104 1 22 doi 10 1098 rstl 1814 0001 ISSN 0261 0523 S2CID 96774986 a b c d Berthollet C L 1790 Essay on the New Method of Bleaching by means of oxygenated muriatic acid with an account of the nature preparation and properties of that acid Trustees of the Linen amp Hempen Manufacture pp 12 13 43 a b Foell H History of Carbon University of Kiel Retrieved 2021 11 01 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Carbon Oxides and Carbonates Introduction to Chemistry courses lumenlearning com Retrieved 2021 11 10 Van Slyke L L 1900 Bulletin No 55 Department of Agriculture p 17 Definition of SALERATUS www merriam webster com Retrieved 2021 11 10 Perry C November 1996 Tiny Bubbles Los Angeles Times Retrieved 2021 11 10 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link PubChem Carbon dioxide pubchem ncbi nlm nih gov Retrieved 2021 10 23 a b c d e f g h i j Beddoes T 1796 Considerations on the Medicinal Use and on the Production of Factitious Airs Part I By Thomas Beddoes M D Part II By James Watt Engineer Bulgin and Rosser pp 10 12 30 37 82 a b c d e f g h i j k Gmelin L 1849 Hand book of Chemistry Inorganic chemistry Cavendish Society p 87 Cooley AJ 1897 Cooley s Cyclopaedia of Practical Receipts and Collateral Information in the Arts Manufactures Professions and Trades Including Medicine Pharmacy and Domestic Economy Designed as a Comprehensive Supplement to the Pharmacopœia and General Book of Reference for the Manufacturer Tradesman Amateur and Heads of Families D Appleton a b The English Encyclopaedia Being a Collection of Treatises and a Dictionary of Terms Illustrative of the Arts and Sciences G Kearsley sold 1802 pp 384 411 a b c Hopper Christopher P Zambrana Paige N Goebel Ulrich Wollborn Jakob June 2021 A brief history of carbon monoxide and its therapeutic origins Nitric Oxide 111 112 45 63 doi 10 1016 j niox 2021 04 001 PMID 33838343 S2CID 233205099 Beddoes T 1797 The Analytical Review Or History of Literature Domestic and Foreign on an Enlarged Plan Beddoes and Watt on Factitious Airs p 385 Franke T 1855 Technological Dictionary English German French Kreidel amp Niedner pp 38 266 Davy Humphry 1800 Chemical Researches p 382 Mellor JW 1924 Supplement to Mellor s Comprehensive Treatise on Inorganic and Theoretical Chemistry pt B1 Boron Hydrogen compounds Longmans Green and Company pp 456 472 Read J 1824 An appeal to the medical profession on the utility of the improved patent syringe with directions for its several uses Dr Smith s Principles of Forensic Medicine p 229 Mellor JW 1924 Supplement to Mellor s Comprehensive Treatise on Inorganic and Theoretical Chemistry pt B1 Boron Hydrogen compounds 22 The History of Carbon Monoxide Longmans Green and Company p 907 Harrington 1801 The Gentleman s Magazine E Cave pp 519 521 Murray J 1819 A System of Chemistry In Four Volumes F Pillans and for Longman Hurst Rees Orme amp Brown London pp 333 334 a b Aikin A Aikin CR 1807 A Dictionary of Chemistry and Mineralogy With an Account of the Processes Employed in Many of the Most Important Chemical Manufactures To which are Added a Description of Chemical Apparatus and Various Useful Tables of Weights and Measures Chemical Instruments Illustrated with 15 Engravings J and A Arch p 244 a b c d e f g h i j k l m Lavoisier s Elements of Chemistry web lemoyne edu Retrieved 2021 10 23 Forbes W January 1806 On the Use of Sulphurated Hydrogen in Stomachic Complaints Edinburgh Medical and Surgical Journal 2 5 9 10 ISSN 0963 4932 PMC 5761423 PMID 30330024 Murray JAH Bradley H Craigie Sir WA Onions CT 1901 A New English Dictionary on Historical Principles Founded Mainly on the Materials Collected by the Philological Society Clarendon Press p 487 Cooley AJ 1872 Cooley s Cyclopaedia of Practical Receipts and Collateral Information in the Arts Manufactures Professions and Trades Including Medicine Pharmacy and Domestic Economy Designed as a Comprehensive Supplement to the Pharmacopœoeia and General Book of Reference for the Manufacturer Tradesman Amateur and Heads of Families J amp A Churchill a b Ringnes Vivi September 1989 Origin of the names of chemical elements Journal of Chemical Education 66 9 731 Bibcode 1989JChEd 66 731R doi 10 1021 ed066p731 ISSN 0021 9584 a b Barker George T 1870 Instructions in the Preparation Administration and Properties of Nitrous Oxide Protoxide of Nitrogen Or Laughing Gas Rubencame and Barker p 9 Guilford S H 1887 Nitrous Oxide Its Properties Method of Administration and Effects Spangler amp Davis p 5 Warren E 1847 Some Account of the Letheon Or Who is the Discoverer Dutton and Wentworth p 28 Beddoes T 1799 Contributions to Physical and Medical Knowledge Principally from the West of England Biggs amp Cottle p 60 Levere TH July 1977 Dr Thomas Beddoes and the establishment of his pneumatic institution a tale of three presidents Notes and Records of the Royal Society of London 32 1 41 9 doi 10 1098 rsnr 1977 0005 PMID 11615622 S2CID 27322059 Watt J 1820 The Monthly Magazine Original Letters of Mr Watt to Dr Lind March 1795 R Phillips p 244 a b c Bergman NA April 1998 Georgiana Duchess of Devonshire and Princess Diana a parallel Journal of the Royal Society of Medicine 91 4 217 9 doi 10 1177 014107689809100414 PMC 1296647 PMID 9659313 Dyck E Stewart L 2016 03 24 The Uses of Humans in Experiment Perspectives from the 17th to the 20th Century BRILL ISBN 978 90 04 28671 9 Chinta KC Saini V Glasgow JN Mazorodze JH Rahman MA Reddy D et al September 2016 The emerging role of gasotransmitters in the pathogenesis of tuberculosis Nitric Oxide 59 28 41 doi 10 1016 j niox 2016 06 009 PMC 5028278 PMID 27387335 Retrieved from https en wikipedia org w index php title Factitious airs amp oldid 1078607312, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.