Chapter 10_Organohalides
... reaction pathway with Cl2 or Br2 and light (h) • Not very useful to the lack of control over the reaction and can lead ...
... reaction pathway with Cl2 or Br2 and light (h) • Not very useful to the lack of control over the reaction and can lead ...
Reactions of Alkenes and Alkynes
... Oxidation of Alkenes: Epoxidation Synthesis of epoxides from alkenes • Peroxyacid transfers oxygen to alkene • Syn stereochemistry • Both C-O bonds form on the same face of the double ...
... Oxidation of Alkenes: Epoxidation Synthesis of epoxides from alkenes • Peroxyacid transfers oxygen to alkene • Syn stereochemistry • Both C-O bonds form on the same face of the double ...
ANSWERS: Types of Reactions - Chemical Minds
... 6) Addition – occurs in alkenes because they have double bonds. Ethene is an alkene so will undergo addition reactions. The chlorine (molecule) will add (across the double bond.) CH2 = CH2 + Cl2 → CH2Cl – CH2Cl Substitution occurs in alkanes (because they have single bonds). Ethane is an alkane, so ...
... 6) Addition – occurs in alkenes because they have double bonds. Ethene is an alkene so will undergo addition reactions. The chlorine (molecule) will add (across the double bond.) CH2 = CH2 + Cl2 → CH2Cl – CH2Cl Substitution occurs in alkanes (because they have single bonds). Ethane is an alkane, so ...
File
... Part B: Reactions of Functional Groups (pg’s 65-80) 1a) Name some common groups of atoms and groups of atoms that can be added to a double or triple bond. b) List some of the possible classes of compounds that can be formed. 2) Explain using an example Markovnikov’s rule. Do alkynes follow this rule ...
... Part B: Reactions of Functional Groups (pg’s 65-80) 1a) Name some common groups of atoms and groups of atoms that can be added to a double or triple bond. b) List some of the possible classes of compounds that can be formed. 2) Explain using an example Markovnikov’s rule. Do alkynes follow this rule ...
synopsis_shreemoyee_final
... Among different reactions catalyzed by supported MNPs, the prominent reactions include epoxidation of alkene,24-26 oxidation of alcohol,27-30 allylic oxidation,31,32 CO oxidation,33-36 C–C coupling reaction37-40 and hydrogenation.41-43 For instance, Zhang et al. have reported the use of magnetic nan ...
... Among different reactions catalyzed by supported MNPs, the prominent reactions include epoxidation of alkene,24-26 oxidation of alcohol,27-30 allylic oxidation,31,32 CO oxidation,33-36 C–C coupling reaction37-40 and hydrogenation.41-43 For instance, Zhang et al. have reported the use of magnetic nan ...
Synthesis of Benzene Derivatives: Electrophilic Aromatic Substitution
... restored. This process is more favored than the nucleophilic trapping by the anion accompanying E+. ...
... restored. This process is more favored than the nucleophilic trapping by the anion accompanying E+. ...
Cracking (chemistry)
In petroleum geology and chemistry, cracking is the process whereby complex organic molecules such as kerogens or heavy hydrocarbons are broken down into simpler molecules such as light hydrocarbons, by the breaking of carbon-carbon bonds in the precursors. The rate of cracking and the end products are strongly dependent on the temperature and presence of catalysts. Cracking is the breakdown of a large alkane into smaller, more useful alkanes and alkenes. Simply put, hydrocarbon cracking is the process of breaking a long-chain of hydrocarbons into short ones. More loosely, outside the field of petroleum chemistry, the term ""cracking"" is used to describe any type of splitting of molecules under the influence of heat, catalysts and solvents, such as in processes of destructive distillation or pyrolysis. Fluid catalytic cracking produces a high yield of petrol and LPG, while hydrocracking is a major source of jet fuel, Diesel fuel, naphtha, and again yields LPG.