Draw the structure(s) of all of the possible monochloro derivatives of 2,7-dimethyloctane, C10H21Cl. Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on.

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Draw the structure(s) of all of the possible monochloro derivatives of 2,7-dimethyloctane, C10H21Cl. Please write out all the individual C-H bonds. Your solution’s ready to go!

Path 2 + HCl → C10H21C1 C10H20 (Decene) Path 3 C10H2OH + HCl → C10H21Cl + H20 (Decanol) Cost of raw materials are as shown: Price ($/kmol) 10.56 26.4 30.8 Chemicals Decane, C10H22 Decene, C10H20 Decanol, C10H2OH Chlorine Hydrogen Chloride Monochlorodecane MCD Dichlorodecane DCD 3.9 2.2 35.2 0.00 (1) Estimate the economic potential of the ...

Monochlorodecane, C10H21CI (MCD) is to be produced from decane, C10H22 (DEC) and chlorine via the reaction below: C10H22 + Cl2 → C10H21Cl + HCI A side reaction occurs in which dichlorodecane, C10H20Cl2 (DCD) is produced: C10H22 + C12 → C10H20Cl2 + HCI The by-product, DCD is not required for this project. HCl can be sold to a neighbouring plant.

Three reaction paths to the manufacture of Monochlorodecane (MCD) are given below: Path 1 C10H22 + Cl2 → C10H21Cl + HCI (Decane) (MCD) with side reaction C10H21CI+ Cl2 → C10H20Cl2 + HCI (MCD) Dichlorodecane (DCD) The ratio of Dichlorodecane (DCD) to Monochlorodecane (MCD) in the reaction products is 1 mole: 4 moles.

Question: Monochlorodecane (MCD) is produced from decane (DEC) and chlorine via the reaction: C10H22 + Cl2 C10H21Cl + HCI DEC MCD A side reaction occurs producing undesired dichlorodecane (DCD): C10H21Cl + Cl2 C10H20Cl2 + HCI MCD DCD Assume all separations can be accomplished using simple distillation and that no azeotropes exist.

Draw the structure(s) of all of the possible monochloro derivatives of 2,7-dimethyloctane, C10H21Cl. Draw and name all isomeric of bromodimethyl-benzenes. Draw structures corresponding to the following names: (a) 2,2,4,4-tetramethyl-3-pentanone.

Draw the structure(s) of all of the possible monochloro derivatives of 2,7-dimethyloctane, C10H21Cl. Draw two resonances structures for C_6ClOH; Draw the structures of these compounds: a. 4-Methyloctane. b. 2,4-Dimethyl-5-propyldecane. Draw possible resonance structures for sulforaphane. Draw the structures of the tautomers of acetophenone.

Question: (3) (a) In an isothermal gas chromatography experiment using an ECD detector, 3.44 nmols of n- chloroheptane, C-H15CI, was added as an internal standard to an unknown amount of n- chlorodecane, C10H21Cl. The area of the first peak to elute was 45001 units and the area of the second peak to elute was 55045 units.