Put a * next to each chiral center, then label them as R or S, make sure number your priority connections.
In a given compound we identifi configuration R/S based on direction clock wise are anti clock wise
Put a * next to each chiral center, then label them as R or S, make...
Assign R/S configurations to each chiral center in the following molecules. Clearly label the stereocenter and show your priority ranking. If no chiral centers exist, write "achiral." (15 pts) GEHICH ANTICHE VSH он "CH, HjC NH2 OH
4. Put an asterisk (*) next to each chiral center in the structure of erythronolide B, a metabone precursor to the commercial antibiotic, erythromycin. H3C .CH OH CH3 нс, Toi Erythronolide R Нас Анас OH 5. Determine whether the chirality centers in the following molecules have Rors configuration. (a) H (b) OCH2CH3 (c) OH NO-C-OH HC-CH3 H₃C-C-CH₂OH (a) HOH (b) c) HOCHZ HOCH2 CO2H 6. Are the following molecules chiral or achiral? If they are chiral, put an asterisk next...
4. For each pair of molecules, assian the confiquration at each chiral center as R or S Give the relationship between the pair of molecules es no relation, constitutional isomers, same molecule but not meso, some molecule and meso, enantiomers, or diastereomerS There should only be one possible answer. OH OH Constitutiona Soenars b. Br Br c. NH2 NH2 NH2 NH2 d. HO. но. ШЕи ши.
4. Consider the molecules shown below. Assign the R/S configuration to each chiral center below. If you have difficulty, try building a molecule. (4 points) он Br н NH2 Br
1. Construct a model of the 2,3-dibromopentane isomer and label the chiral centers as R or S. Then make a model of its mirror image and draw it below, again labeling the chiral centers as R or S. a. Convert both models to their most stable conformation and draw their Newman projections looking down the center bond. b. On one model interchange the H and Br on one of the chiral centers. How is this molecule related to the other...
Question 9: Label each stereogenic center as R or S NH2 Cl Il HO Br
In this problem, how do you know which atoms or groups are going away, towards you, or in plane from the chiral center? for example, why do they assume that hydrogen is going away (dotted line) and Ch3 is coming towards you (bold colored line)? And how do you know which direction Ch2Ch2Br and Br is going in? its just a single line (Not dotted or bold). I know directions are important in determining R/S. Ex: In the second photo...
R / S stereocenters 8. Try R 1 S stereocenter! Label each group on the stereocenter as 1, 2, 3, or 4. First look at the 4 atoms directly bonded to the stereocenter (chiral carbon). For tiebreakers, use the 3 bonds (other than bond to stereocenter) that are on each of the "tied" carbons. 4 atomsTiebreaker Rank (3 other bonds) Br Once you have rankings, Make sure #4 is pointed away, then see which direction the 1 to 2 to...
A. Consider the following pairs of structures. Designate each chirality center as (R) or (S) and identify the relationship between them by describing them as representing enantiomers, diastereomers, constitutional isomers, or two molecules of the same compound. Use handheld molecular models to check your answers. B. Tartaric acid [HO2CCH(OH)CH(OH)CO2H] was an important compound in the history of stereochemistry. Two naturally occurring forms of tartaric acid are optically inactive. One optically inactive form has a melting point of 210 − 212 °...