Thank you,, happy to help you,, have a very good day,, please like
5.56 The specific rotation of vitamin C (using the D line of sodium, at 20°C) is +24 g the D line of sodium, at 20°...
5.41 Predict the value for the specific rotation of the following compound. Explain your answer. -OH НО. 5.42 The specific rotation of (S)-2-butanol is +13.5. If 1.00 g of its enantiomer is dissolved in 10.0 mL of ethanol and placed in a sample cell with a length of 1.00 dm, what observed rotation do you expect? 5.43 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...
5.42 The specific rotation of (S)-2-butanol is +13.5. If 1.00 g of its enantiomer is dissolved in 10.0 mL of ethanol and placed in a sample cell with a length of 1.00 dm, what observed rotation do you expect?
5.40 You are given a solution containing a pair of enantiomers (A and B). Careful measurements show that the solution contains 98% A and 2% B. What is the ee of this solution? 5.41 HO TOH Predict the value for the specific rotation of the following compound. Explain your answer. -OH HO. 5.42 The specific rotation of (S)-2-butanol is +13.5. If 1.00 g of its enantiomer is dissolved in 10.01 of ethanol and placed in a sample cell with a...
A) If the observed rotation for the product mixture obtained from running the reaction in toluene is 18.7, what is the specific rotation of the S enantiomer? B) Based on your answer in part (a), predict what the observed rotation would be for a solution containing 0.250 g of this S-enantiomer dissolved in 10.0 mL of ethanol and placed in a sample cell with a length of 10.0 cm.
5.49 When 0.075 g of penicillamine is dissolved in 10,0 mL of pyridine and placed e is dissolved in 10.0 mL of pyridine and placed in a sample cell min length, the observed rotation at 20°C (using the D line of sodium) is -0.47°. Calculate the specific rotation of penicillamine.
14.A solution of 2.0 g of (+) glyceraldehydes, in a 10 ml of water was placed in a mm cell. Using the sodium D line, a rotation of +1.74 was found at 25C. Determine the specific rotation of(+) glyceraldehydes? (5) 15.(+)-Tartaric acid has a specific rotation of +12.0°. Calculate the specific rotation of a mixture 1 of 68% (+)-tartaric acid and 32% (-)-tartaric acid? (5)
4. 0.050 g of sample is dissolved in 2.0 mL of ethanol, and this solution is placed in a 2.0-cm polarimeter tube. The observed rotation is clockwise 0.043. Calculate the specific rotations taken at 25°C using the sodium D line.
the optical rotation of the d-form of -piene (C10H16), measured at 20 C with the sodium D-line in a cell of pathlength 1.0 cm is +4.4 degrees. Given that the density of the liquid is 0.859 g mL^{-1}, calculate the specific rotation of -piene. What does the + sign of the rotation mean?
The specific rotation [α] of (1S, 2R)-ephedrine HCl salt in water is −32.5° at 22 °C (light source: sodium D line). What is the optical rotation α in degrees (°) of an aqueous solution containing 250 mg/mL (1R, 2S)-ephedrine HCl salt AND 50 mg/mL (1S, 2R)-ephedrine HCl salt measured using a 1.00-cm pathlength tube under the same condition?
1.Calculate the specific rotation, [α], if the observed rotation is -24°, the concentration is 31 g/100 mL, and the cell length is 5 cm. Answer in :° mL/g/dm 2. The height of three peaks; A, B, and C obtained in a gas chromatogram are 27.7 mm, 19.2 mm and 41.0 mm. The width of the peaks, at half height, are 4.9 mm, 4.7 mm and 4.6 mm, respectively. Calculate the percentage composition of C in the sample. Answer in :...