An aqueous solution containing 5.85 g of an optically pure compound was diluted to 800.0 mL...
An aqueous solution containing 9.03 g of an optically pure compound was diluted to 800.0 mL with water and placed in a polarimeter tube 20.0 cm long. The measured rotation was –2.15° at 25 °C. Calculate the specific rotation of the compound.
An aqueous solution containing 7.17 g of an optically pure compound was diluted to 300.0 mL with water and placed in a polarimeter tube 15.0 cm long. The measured rotation was –2.15° at 25 °C. Calculate the specific rotation of the compound. The specific reoation equation is determined by the equation: An aqueous solution containing 7.17 g of an optically pure compound was diluted to 300.0 mL with water and placed in a polarimeter tube 15.0 cm long. The measured...
An aqueous solution containing 6.33 g of an optically pure compound was diluted to 500.0 mL with water and placed in a polarimeter tube 10.0 cm long. The measured rotation was –5.91° at 25 °C. Calculate the specific rotation of the compound.
An aqueous solution containing 4.71 g of an optically pure compound was diluted to 400.0 mL with water and placed in a polarimeter tube 15.0 cm long. The measured rotation was -4.19℃ at 25 ℃. Calculate the specific rotation of the compound.
An aqueous solution containing 6.31 g of an optically pure compound was diluted to 600.0 mL with water and placed in a polarimeter tube 20.0 cm long. The measured rotation was –2.91° at 25 °C. Calculate the specific rotation of the compound.
An aqueous solution containing 6.13 g of an optically pure compound was diluted to 500.0 mL with water and placed in a polarimeter tube 20.0 cm long. The measured rotation was –5.97° at 25 °C. Calculate the specific rotation of the compound.
CH, CH CH,CH Compound A CH3 CH3 но CH3 CH3 CH3 CH3 Compound B 4.43 a) An aqueous solution containing 10 g of optically pure fructose was diluted to 500 mL with water and placed in a polarimeter tube 20 cm long. The measured rotation was 5.20°. Calculate the specific rotation of fructose. (b) If this solution were mixed with 500 mL of a solution containing 5 g of racemic fructose, what would be the specific rotation of the resulting...
Q)a)An aqueous solution containing 10g of optically pure fructose was diluted to 500mL with water and placed in a polarimeter tube 20 cm long.The measured rotation was -5.20 degrees.Calculate the specific rotation of fructose. b)If this solution were mixed with 500 mL of a solution containing 5 g of racemic fructose,what would be the specific rotation of the resulting fructose mixture?What would be its optical purity?
An aqueous solution containing 9.53 g of an optically-pure compound was diluted to 7.00×102 mL with water and placed in a 10.0 cm long polarimeter tube. The measured rotation was −3.89° at 25° C. Calculate the specific rotation of the compound
An aqueous solution containing 10 g of an optically pure compound was diluted to 500 mL with water and was found to have a specific rotation of −117°. If this solution were mixed with 500 mL of a solution containing 3 g of a racemic mixture of the compound, what would the specific rotation of the resulting mixture of the compound? What would be its optical purity?