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Réaksi organik: Béda antarrépisi

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Kimia organik boga kabiasaan anu kuat pikeun méré ngaran ka hiji réaksi dumasar nu manggihanana, misalna [[tata ulang Claisen]] (1912) jeung [[réaksi Bingel]] (1993). Mun ngaranna hésé kusabab panjang teuing (misalna [[réaksi Corey-House-Posner-Whitesides]]), mangka sok diringkes maké [[réduksi CBS]]. Jumlah réaksi nu nyebutkeun sacara langsung prosés aktualna mah teu loba, misalna baé [[réaksi éna]] atawa [[réaksi aldol]].
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Another approach to organic reactions is by type of [[organic reagent]], many of them [[inorganic compound|inorganic]], required in a specific transformation. The major types are [[oxidizing agent]]s such as [[osmium tetroxide]], [[reducing agent]]s such as [[Lithium aluminium hydride]], [[base (chemistry)|bases]] such as [[lithium diisopropylamide]] and [[acid]]s such as [[sulfuric acid]].
 
Réaksi organik bisa ogé ditilik tina tipeu [[réagen organik]]na, nu lolobana [[sanyawa anorganik|anorganik]], nu dipikabutuh dina transformasi anu husus. Tipeu-tipeu anu utama di antarana [[agén pangoksidasi]] (misalna [[osmium tétroksida]]), [[agén pangréduksi]] (misalna [[litium aluminium hidrida]]), [[basa]] (misalna [[litium diisopropilamida]]), jeung [[asam]] (misalna [[asam sulpat]]).
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Factors governing organic reactions are essentially the same as that of any [[chemical reaction]]. Factors specific to organic reactions are the those that determine the stability of reactants and products such as [[Conjugated system|conjugation]], [[hyperconjugation]] and [[aromaticity]] and the presence and stability of [[reactive intermediate]]s such as [[radical (chemistry)|free radical]]s, [[carbocation]]s and [[carbanion]]s.
 
Dicomot ti "https://su.wikipedia.org/wiki/Réaksi_organik"