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What is Asymmetric Carbon? An asymmetric carbon is a carbon atom in a molecule that is bonded to four different substituents. Each substituent is a group or atom bonded to the carbon atom. Carbon ...
Structure of 2-chloro-4,5-dimethyl-3-hexone. There are 2 steps to solve this one. Solution. 100% (1 rating) Share. Answered by. Chemistry expert. Step 1. solution.
Chemistry. Chemistry questions and answers. 6) Which of the following molecules contains a chiral carbon? CH3 -CH-CH2CH3 CH3 CH3-CH-CH2CH3 он CH3-C—CH2CH3 CH3-CH-CH3 OH 7) How many chiral carbon atoms are in this structure? CH2-CH-CH-CHCH3 OH OH Bra | A) 4 B) 3 C) 5 D) 6. Your solution’s ready to go!
See Answer. Question: Indicate the chiral carbon (s). Identify the appropriate atom by selecting each atom and assigning it a map number of 1 until all atom Properties. (Mac users: Use an equlvalent for right-clicking.) Then, clear the check mark to enable the н Он CI Br P. Part C Indicate the chiral carbon (s).
Select all of the chiral carbon atoms. Question 1: Below is the open-chain structure of the monosaccharide D-tagatose, which is a ketohexose. Like most monosaccharides, it has more than one chiral carbon. Select all of the chiral carbon atoms. Question 2:
Step 1. An atom of carbon that has bo... How many chiral carbon atoms does the monosaccharide altrose have? CHO HO-C-H н-с-он CH,OH altrose Which of the following compounds can have stereoisomers? View Available Hint (s) 2-methyl-1-butene 1-butene 3-chloropentane 2-pentene Submit Part B Which of the following compounds has both cis and ...
Carbon commonly forms chiral centers, and anytime a carbon atom is bound to four unique entities, it is a chiral center. Intraconazole, an antifungal agent, has two chiral centers (see image).
An aldotetrose is a four-carbon monosaccharide that contains an aldehyde group. Draw the Fischer projections of the four aldotetroses, placing the D-sugar on the left and the L-isomer directly to its right. Be sure to select the appropriate hydroxyl group so that the oxygen atom, not the hydrogen atom, is bound to a chiral carbon.
An example of a chiral center is a carbon atom attached to a chlorine atom, a bromine atom, a hydrogen atom, and a fluorine atom. Note that by definition, chiral centers can be considered ...
Part B Identify the chiral carbon atom(s) in 2-bromobutane. Identify the appropriate atom by selecting each atom and assigning it a map n all atoms are mapped. To do this, right-click on an atom and choose Atom Pro users: Use an equivalent for right-clicking.) Then, clear the check mark to ena before entering a value. ® H: 120 EXP cont. + - x