The specific rotation of (S)-carvone (at 20°C) is +61. A chemist prepared a mixture of (R)-carvone...

The specific rotation of L-alanine in water (at 25°C) is +2.8. A chemist prepared a mixture...

The specific rotation of L-alanine in water (at 25°C) is +2.8. A chemist prepared a mixture of L-alanine and its enantiomer, and 3.50 g of the mixture was dissolved in 10.0 mL of water. This solution was then placed in a sample cell with a pathlength of 10.0 cm and the observed rotation was +0.70. Calculate the % ee of the mixture.

A sample contains a mixture of (+) and (-)- carvone. When you measure the optical rotation...

A sample contains a mixture of (+) and (-)- carvone. When you measure the optical rotation of the neat sample (no solvent) at 20°C using a polarimeter with a sodium lamp, you obtain an optical rotation of-31.2°. Calculate the optical purity and ratio of carvone enantiomers in your mixture given that the specific rotation of(-)-carvone is-62.5°at 20°C.

If a pure R isomer has a specific rotation of –144.0°, and a sample contains 69.0%...

If a pure R isomer has a specific rotation of –144.0°, and a sample contains 69.0% of the R isomer and 31.0% of its enantiomer, what is the observed specific rotation of the mixture?

If a pure R isomer has a specific rotation of –151.0°, and a sample contains 72.0%...

If a pure R isomer has a specific rotation of –151.0°, and a sample contains 72.0% of the R isomer and 28.0% of its enantiomer, what is the observed specific rotation of the mixture?

A) assume you synthesized a molecule with a single chiral center. The known specific rotation for...

A) assume you synthesized a molecule with a single chiral center. The known specific rotation for the pure R enentiomer of this compound is +20 degrees. After you synthesis, you measure a specific rotation of +4 degrees. What is the ee of your compound ? Answer is 20% ee of R B) the S of a certain alcohol has a specific rotation (of a plane polarized light) of +8 degrees. What is the specific rotation of a solution of this...

Specific rotation of L-alanine in water (at 25 °C) is +2.8. Suppose you have 3.00 g...

Specific rotation of L-alanine in water (at 25 °C) is +2.8. Suppose you have 3.00 g of mixture of L and D-alanine. You dissolved it in 10 mL of water, and measured rotation in 10 cm cell. The observed rotation was +0.12. Calculate the ee% for the mixture. How many grams of D- and L-alanine do you have in the sample? Optical purity (ee%) = observed specific rotation/ specific rotation of the pure enantiomer x 100= (+0.12 / +2.80 )...

An attempt at synthesizing a certain optically active compound resulted in a mixture of its enantiomers....

An attempt at synthesizing a certain optically active compound resulted in a mixture of its enantiomers. The mixture had an observed specific rotation of 16.3°. If it is known that the specific rotation of the R enantiomer is –31.9°, determine the percentage of each isomer in the mixture.

An attempt at synthesizing a certain optically active compound resulted in a mixture of its enantiomers....

An attempt at synthesizing a certain optically active compound resulted in a mixture of its enantiomers. The mixture had an observed specific rotation of 17.0°. If it is known that the specific rotation of the R enantiomer is –34.7°, determine the percentage of each isomer in the mixture.

An attempt at synthesizing a certain optically active compound resulted in a mixture of its enantiomers....

An attempt at synthesizing a certain optically active compound resulted in a mixture of its enantiomers. The mixture had an observed specific rotation of 15.8°. If it is known that the specific rotation of the R enantiomer is –33.7°, determine the percentage of each isomer in the mixture.

What is the specific rotation of a 15.1:84.9 mixture of cholesterol and its enantiomer?

What is the specific rotation of a 15.1:84.9 mixture of cholesterol and its enantiomer?