Please show work. I ALWAYS RATE! Thank you!
Please show work. I ALWAYS RATE! Thank you! What observed rotation is expected when a 1.76...
What observed rotation is expected when a 1.00 M solution of (R)-2-butanol is mixed with an equal volume of a 0.500 M solution of racemic 2-butanol, and the resulting solution is analyzed in a sample container that is 1 dm long? The specific rotation of (R)-2-butanol is –13.9 degrees mL g–1 dm–1.
What observed rotation is expected when a 1.72 M solution of (R)-2-butanol is mixed with an equal volume of a 0.860 M solution of racemic 2-butanol, and the resulting solution is analyzed in a sample container that is 1 dm long? The specific rotation of (R)-2-butanol is - 13.9 degrees mL g 'dm"? Number deg
What observed rotation is expected when a 1.36 M solution of (R)-2-butanol is mixed with an equal volume of a 0.680 M solution of racemic 2-butanol, and the resulting solution is analyzed in a sample container that is 1 dm long? The specific rotation of (R)-2-butanol is –13.9 degrees mL g–1 dm–1. please show all work
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...
A 0.120 M solution of an enantiomerically pure chiral compound D has an observed rotation of + 0.26 degree in a 1-dm sample container. The molar mass of the compound is 153.0 g/mol. What is the specific rotation of D? What is the observed rotation if this solut is mixed with an equal volume of a solution t is 0.120 M in L, the enantiomer of D? What is the observed rotation if the solution of D is diluted with...
please solve and probide step by step 15. Calculate the observed rotation expected in the following situation: a standard 2.00-dm cell is used and ten grams of a 9:1 mixture of enantiomers is dissolved in 100 mL of solvent. The major enantiomer has a specific rotation of +200°.(4 pts)
If you could please assist with these! thank you! Calculate the enantiomeric excess of a 0.1g sample of (R)(-) ibuprofen (optical rotation = -54.24°) with an observed rotation of -0.4009° in a 1 dm polarimetry cell, 10 mL of Ethanol. 73.92% 45.01% 88.22% 96.21% Question 8 2 pts Calculate the enantiomeric excess of a .1g sample of (R)(-) ibuprofen (optical rotation = -52.24°) with an observed rotation of -0.5009° in a 1 dm polarimetry cell, 10 mL of ethanol. 098.22%...
Which of the following solutions would you expect to be optically active? Circle all that apply 5 g of (2R,3S)-2-bromo-3-chloropentane 5 g of (2R,3R)-2-bromo-3-chloropentane dissolved in an unknown volume of organic 10 g (R)-carvone and 10 g (S) carvone dissolved in 500 mL of CH2C12 10 g 2-chloro-2-bromopropane dissolved in 100 mL H20 solvent Solution formed by adding 5.0 mL of 1-methylbutane to 10 mL of CH3OH Solution formed by mixing 8.0 mL of 2.0 M (+)-2-butanol and 4.0 mL...