Help please!! 14. (5) Pure (R)-mandelic acid has a specific rotation of -154. If a sample...
If a pure R isomer has a specific rotation of – 106.0°, and a sample contains 79.0% of the R isomer and 21.0% of its enantiomer, what is the observed specific rotation of the mixture? Number [a] = 10
If a pure R isomer has a specific rotation of –136.0°, and a sample contains 65.0% of the R isomer and 35.0% of its enantiomer, what is the observed specific rotation of the mixture?
if a pure R isomer has a specific rotation of -106.0, and a sample contains 70.0% of the R isomer and 30.0% of it's enantiomer, what is the observed specific rotation of the mixture
1) (S)(-) mandelic acid has a specific rotation of -158.0 degrees, If the rotation you observed in your polarimeter in a 2.5 dm cell was -150.1, what is the concentration of the solution in g ml1?
7) A solution of an enantiomerically pure sample of (R)- 3-chloropentanoic acid is made by dissolving 2.5 g of the compound in 100 mL of water. a. Calculate the specific rotation of (R)- 3-chloropentanoic acid if the observed rotation of the above sample is +2.78° when measured in a 40 cm tube. g/mL +2.7% = 127.5 10025(4) b. What is the specific rotation of (S)-3-chloropentanoic acid? -27,8 c. A chemist prepares a sample which is a mixture of both enantiomers...
3. Pure Θ Kaylanoic acid has a specific rotation of-160° (same conditions and temperature as sample above). What is the % optical purity of the sample above ? (0.75 points) 4. 3.5 mg of optically-enriched(-) antibiotic Zachromycin was dissolved in 1.00 mL methanol in a 1.00 mL volumetric flask. The optical rotation was found to be -0.02220 in a 5.0 cm cell. What is the specific rotation? (0.75 points) 5. Calculate the enantiomeric excess and the specific rotation of a...
The specific rotation of pure (-)-2-butanol is -13.5°. If a mixture has a specific rotation of +7o, how much of each form (+ and-) is present and what is the e.e. of the mixture? 21. 22. (-)-Lactic acid has a specific rotation of -3.8°. What is the specific rotation of a solution containing 7.5 g of (--lactic acid and 2.5 g of (+)-lactic acid? 23. Draw the Fischer projection of (2R,4R)-2,4-dibromopentane. w? And draw the 24. How many diastereomers are...
A 0.110 M solution of an enantiomerically pure chiral compound D has an observed rotation of +0.24° in a 1-dm sample container. The molar mass of the compound is 144.0 g/mol. (a) What is the specific rotation of D? (b) What is the observed rotation if this solution is mixed with an equal volume of a solution that is 0.110 M in L, the enantiomer of D? Number deg mL Number g dm deg (c) What is the observed rotation...
A 0.110 M solution of an enantiomerically pure chiral compound D has an observed rotation of 0.18° in a 1-dm sample container. The molar mass of the compound is 174.0 g/mol. (a) What is the specific rotation of D? (b) What is the observed rotation if this solution is mixed with an equal volume of a solution that is 0.110 M in L, the enantiomer of D? (c) What is the observed rotation if the solution of D is diluted...
A 0.140 M solution of an enantiomerically pure chiral compound D has an observed rotation of 0.18° in a 1-dm sample container. The molar mass of the compound is 150.0 g/mol. (a) What is the specific rotation of D? (b) What is the observed rotation if this solution is mixed with an equal volume of a solution that is 0.140 M in L, the enantiomer of D? (c) What is the observed rotation if the solution of D is diluted...