Organic Chem Ch 3 and 5 – Flashcards
Unlock all answers in this set
Unlock answersquestion
acyclic
answer
noncyclic
question
alkane
answer
A saturated hydrocarbon; a hydrocarbon that has no carbon - carbon multiple bonds; has only carbon-carbon single bonds; formerly called the paraffin series.
question
alkyl group
answer
the group of atoms remaining after a hydrogen atom is removed from an alkane: an alkane-like substituent . symbolized by R
question
amyl
answer
an older common name for pentyl
question
angle strain or baeyar strain
answer
the strain associated with distorting bond angles to smaller or larger angles
question
anti conformation
answer
the geometric arrangement around a carbon-caron single bond in which the two largest substituents are 180 degrees apart as viewed in a Newman projection
question
aromatic hydrocarbon
answer
a hydrocarbon having a benzene-like aromatic ring
question
axial bond
answer
one of the six bonds (three up and three down) on the chair conformation of the cyclohexane ring that are parallel to the "axis" of the ring The axil bonds are shown in red, and the equatorial bond is green
question
bridged bicyclic compound
answer
a compound containing two rings joined at nonadjacent carbon atoms
question
bridgehead carbons
answer
the carbon atoms shared by two or more rings. Three chains of carbon atoms (bridges) connect the bridgeheads
question
chair-chair interconversion
answer
(ring-flip) the process of one chair conformation of a cyclohexane flipping into one another , with all the axial and equatorial position reversed . the boat (or twist boat) conformation in an intermediate for the chair -chair interconversion
question
cis-trans isomers
answer
(geometric isomers) stereoisomers that differ only with respect to their cis or trans arrangement on a ring or double bond
question
cis:
answer
having two similar groups directed toward the same face of a ring or double bond
question
trans:
answer
having two similar groups directed towards opposite faces of a ring or double bond
question
combustion
answer
a rapid oxidation at high temperatures in the presence of air or oxygen
question
common names
answer
the names that have developed historically, generally with a specific name for each com compound: also called trivial names
question
conformational analysis
answer
the study of the energetics of different conformations
question
conformations and conformers
answer
structures that are related by rotations about a single bond. Strictly speaking, a conformer is a conformation that corresponds to a relative minimum energy usually a staggered conformation. In most cases , conformations and conformers interconvert at room temperature, and they are not true isomers
question
Know the conformations of cyclohexanes
answer
chair half chair boat twist boat
question
chair conformation
answer
conformation of cyclohexane with almost no angle strain resembles a chair, all neighboring C-H bonds are staggered - most stable
question
boat conformation
answer
the less stable puckered conformation of cyclohexane, with both parts puckered upward. The most stable boat is actually the twist boat ( or simple twist) conformation. Twisting minimizes torsional strain and steric strain
question
flag pole hydrogens
answer
two hydrogens (blue) in the boat conformation point upwards like flagpoles. the twist boat reduces the steric repulsion of the flagpole hydrogens
question
half-chair conformation
answer
the unstable conformation halfway between the chair conformation and the boat conformation .part of the ring is flat in the half-chair conformation.
question
constitutional isomers
answer
(structural isomers) Isomers who's atoms are connected differently: they differ in their bonding sequence.
question
cracking
answer
heating large alkanes to cleave them into smaller molecules
question
catalytic cracking
answer
cracking the presence of catalyst
question
hydrocracking
answer
catalyst cracking the the presences of hydrogen to give mixtures an alkanes
question
cyclic
answer
congaing of ring of atoms
question
cycloalkane
answer
an alkane containing a ring of carbon atoms: general formula : CnH2n
question
degree of alkyl substitution
answer
the number of alkyl groups bonded to a carbon atom in a compound or in an alkyl group
question
Primary degree
answer
``H ``| R--C--H ``| ``H
question
Secondary degree
answer
```H ```| R--C--H ``` | ```R
question
Tertiary Degree
answer
```H ```| R--C--R ```| ```R
question
Quaternary Degree
answer
```R ```| R--C--R ``| ``R
question
1,3 -diaxial interaction
answer
the strong steric strain between two axial groups on cyclohexane carbons with one carbon between them
question
dihedral angle
answer
the angle between two specified groups in a newman project
question
eclipsed conformation
answer
any conformation with bonds directly lined up with each other , one behind the other, in the Newman project. The conformation with 0= zero degrees in an eclipsed conformation.
question
equatorial bond
answer
on of the six bonds (three up three down) on the cyclohexane ring that are directed out toward the "equator" of the ring. The equatorial bonds are shown in green in the drawing in the drawing at right
question
fused ring system
answer
a molecule in which two or more rings share two adjacent carbon atoms
question
gauche conformation
answer
a conformation with a 60 degree dihedral angle between the largest groups
question
geometric isomers
answer
Compounds that have the same covalent partnershipds, but differ in spatial arrangements
question
halogenation
answer
the reaction of alkanes with halogens, in the presence of heat or light, to give products with halogens atoms substituted for hydrogen atoms
question
Formula for halogenation
answer
R-H+X2 when added heat or light transforms to R-X+XH x= F, Cl, Br
question
heat of combustion
answer
the heat given off when a mole of a compound is burned with excess oxygen to give CO2 and H20 in a bomb calorimeter. A measure of the energy content of a molecule.
question
homologs
answer
two compounds that differ only by one or more -CH2- groups
question
hydrophilic
answer
attracted to water: soluble in water
question
hydrophobic
answer
repelled by water : insoluble in water
question
IUPAC Names
answer
the systematic names that follow the rules adopted by the International Union Of Pure and Applies Chemistry
question
kerosene
answer
A thin, volatile oil distilled from petroleum, with a boiling range higher than that of gasoline and lower than that of diesel fuel. Kerosene was once used in lanterns and heaters, but now most of this petroleum fraction is further refined for use as jet fuel
question
methane hydrate
answer
An ice-like substance consisting of individual methane molecules trapped inside cages of water molecules.
question
methine group
answer
The- CH-group.
question
methylene group
answer
The -CH2- group.
question
methyl group
answer
The -CH3- group.
question
n-alkane, normal alkane, or straight-chain alkane
answer
An alkane with all its carbon atoms in a single chain, with no branching or alkyl substituents.
question
Newman projections
answer
a way of drawing the conformations of a molecule by looking straight down the bond connecting two carbon atoms
question
octane number
answer
A rating of the antiknock properties of a gasoline blend. Its octane number is the percentage of isooctane (2,2,4-trimethylpentane) in an isooctane/heptane blend that begins to knock at the same compression ratio as the gasoline being tested.
question
paraffins
answer
Another term for alkanes.
question
ring strain
answer
The extra strain associated with the cyclic structure of a compound, as compared with a similar acyclic compound; composed of angle strain and torsional strain.
question
angle strain or Baeyer strain:
answer
The strain associated with distorting bond angles to smaller (or larger) angles
question
torsional strain:
answer
The strain associated with eclipsing of bonds in the ring.
question
saturated
answer
Having no double or triple bonds.
question
sawhorse structures
answer
A way of picturing conformations by looking down at an angle toward the carbon-carbon bond
question
skew conformation
answer
Any conformation that is not precisely staggered or eclipsed.
question
spirocyclic compounds
answer
Bicyclic compounds in which the two rings share only one carbon atom.
question
staggered conformation
answer
Any conformation with the bonds equally spaced in the Newman projection. The conformation with 0= 60 degrees is a staggered conformation.
question
steric strain
answer
The interference between two bulky groups that are so close together that their electron clouds experience a repulsion
question
substituent
answer
A side chain or appendage on the main chain.
question
systematic names
answer
Same as IUPAC names, the names that follow the rules adopted by the International Union of Pure and Applied Chemistry. (
question
torsional energy or conformational energy
answer
The energy required to twist a bond into a specific conformation.
question
torsional strain
answer
The resistance to twisting about a bond.
question
totally eclipsed conformation
answer
A conformation with a 0 dihedral angle between the largest groups. Usually the highest-energy conformation
question
Using the general molecular formula for alkanes: (a) Predict the molecular formula of the straight-chain alkane
answer
...
question
) Predict the molecular formula of 4,6-diethyl-12-(3,5-dimethyloctyl)triacontane, an alkane containing 44 carbon atoms.
answer
...
question
Write structures for the following compounds
answer
(a) 3-ethyl-4-methylhexane (b) 3-ethyl-5-isobutyl-3-methylnonane (c) 4-tert-butyl-2-methylheptane (d) 5-isopropyl-3,3,4-trimethyloctane
question
Provide IUPAC names for compounds.
answer
...
question
All of the following names are incorrect or incomplete. In each case, draw the structure (or a possible structure) and name it correctly
answer
(a) 2-methylethylpentane (b) 2-ethyl-3-methylpentane (c) 3-dimethylhexane (d) 4-isobutylheptane (e) 2-bromo-3-ethylbutane (f) 2-diethyl-3-methylhexane
question
Give structures and names for:
answer
a) the five isomers of C6H14 (b) the nine isomers of C7H16
question
Draw the structures of the following groups, and give their more common names.
answer
(a) the (1-methylethyl) group (b) the (2-methylpropyl) group (c) the (1-methylpropyl) group (d) the (1,1-dimethylethyl) group (e) the (3-methylbutyl) group, sometimes called the "isoamyl" group
question
Draw the structures of the following compounds.
answer
(a) 4-(1,1-dimethylethyl)octane (b) 5-(1,2,2-trimethylpropyl)nonane (c) 3,3-diethyl-4-(2,2-dimethylpropyl)octane
question
Without looking at the structures, give molecular formulas for the compounds Use the names of the groups to determine the number of carbon atoms, then use the 12n+22 rule.
answer
(a) 4-(1,1-dimethylethyl)octane (b) 5-(1,2,2-trimethylpropyl)nonane
question
List each set of compounds in order of increasing boiling point. hexane, octane, and decane
answer
...
question
List each set of compounds in order of increasing boiling point. octane, and (CH3) 3C-C(CH3)3C and CH3CH2C(CH3)2CH2CH2CH3
answer
...
question
Draw a graph, similar to Figure 3-9, of the torsional strain of 2-methylpropane as it rotates about the bond between C1 and C2. Show the dihedral angle and draw a Newman projection for each staggered and eclipsed conformation.
answer
...
question
Draw a graph, similar to Figure 3-11, of the torsional energy of 2-methylbutane as it rotates about the bond.
answer
...
question
Draw a perspective representation of the most stable conformation of 3-methylhexane
answer
...
question
Draw the structure and give the molecular formula for each of the following compounds.
answer
(a) 1-ethyl-3-methylcycloheptane (b) isobutylcyclohexane (c) cyclopropylcyclopentane (d) 3-ethyl-1,1-dimethylcyclohexane (e) 3-ethyl-2,4-dimethylhexane (f) 1,1-diethyl-4-(3,3-dimethylbutyl)cyclohexane
question
Which of the following cycloalkanes are capable of geometric (cis-trans) isomerism? Draw the cis and trans isomers.
answer
(a) 3-ethyl-1,1-dimethylcyclohexane (b) 1-ethyl-3-methylcycloheptane (c) 1-ethyl-3-methylcyclopentane (d) 1-cyclopropyl-2-methylcyclohexane
question
The heat of combustion of cis-1,2-dimethylcyclopropane is larger than that of the trans isomer. Which isomer is more stable? Use drawings to explain this difference in stability.
answer
...
question
trans-1,2-Dimethylcyclobutane is more stable than cis-1,2-dimethylcyclobutane, but cis-1,3- dimethylcyclobutane is more stable than trans-1,3-dimethylcyclobutane. Use drawings to explain these observations.
answer
...
question
The cyclohexane chair just drawn has the headrest to the left and the footrest to the right. Draw a cyclohexane chair with its axial and equatorial bonds, having the headrest to the right and the footrest to the left.
answer
...
question
Draw 1,2,3,4,5,6-hexamethylcyclohexane with all the methyl groups (a) in axial positions. (b) in equatorial positions
answer
...
question
Draw a Newman projection, similar to Figure 3-25, down the bond in the equatorial conformation of methylcyclohexane. Show that the equatorial methyl group is also anti to C5. (Using your models will help.)
answer
...
question
Draw a Newman projection, similar to Figure 3-25, down the bond in the equatorial conformation of methylcyclohexane. Show that the equatorial methyl group is also anti to C5. (Using your models will help.)
answer
...
question
Draw the most stable conformation of: (a) ethylcyclohexane (b) 3-isopropyl-1,1-dimethylcyclohexane (c) cis-1-tert-butyl-4-isopropylcyclohexane
answer
...
question
(a) Draw both chair conformations of cis-1,2-dimethylcyclohexane, and determine which conformer is more stable. (b) Repeat for the trans isomer. (c) Predict which isomer (cis or trans) is more stable.
answer
...
question
(a) Draw both chair conformations of cis-1,4-dimethylcyclohexane, and determine which conformer is more stable. (b) Repeat for the trans isomer. (c) Predict which isomer (cis or trans) is more stable.
answer
...
question
Use your results from Problem 3-25 to complete the following table. Each entry shows the positions of two groups arranged as shown. For example, two groups that are trans on adjacent carbons (trans-1,2) must be both equatorial (e,e) or both axial (a,a).
answer
...
question
Draw the most stable conformation of trans-1-ethyl-3-methylcyclohexane.
answer
...
question
Draw the two chair conformations of each of the following substituted cyclohexanes. In each case, label the more stable conformation
answer
(a) cis-1-ethyl-2-methylcyclohexane (b) trans-1,2-diethylcyclohexane (c) cis-1-ethyl-4-isopropylcyclohexane (d) trans-1-ethyl-4-methylcyclohexane
question
Name the following compounds. Remember that two up bonds are cis; two down bonds are cis; one up bond and one down bond are trans.
answer
...
question
Draw the most stable conformation of
answer
(a) cis-1-tert-butyl-3-ethylcyclohexane (b) trans-1-tert-butyl-2-methylcyclohexane (c) trans-1-tert-butyl-3-(1,1-dimethylpropyl)cyclohexane
question
Given the IUPAC name or common name of an alkane, draw the structure and give the molecular formula
answer
...
question
Explain and predict trends in the physical properties of alkanes.
answer
...
question
Use Newman projections to compare conformational energies and predict the most stable conformation. Show how the torsional energy varies as the dihedral angle changes
answer
...
question
Use Newman projections to compare conformational energies and predict the most stable conformation. Show how the torsional energy varies as the dihedral angle changes
answer
...
question
Identify and draw cis and trans stereoisomers of disubstituted cycloalkanes.
answer
...
question
Identify and draw cis and trans stereoisomers of disubstituted cycloalkanes.
answer
...
question
There are eighteen isomeric alkanes of molecular formula C8H18. Draw and name any eight of them
answer
...
question
Draw and name the six isomeric cyclopentanes of molecular formula . These will include four constitutional isomers, of which two show geometric (cis-trans) stereoisomerism
answer
...
question
Which of the following structures represent the same compound? Which ones represent different compounds?
answer
...
question
Name the structures given in Problem 3-33, parts (a), (c), (e), and (f). Make sure that your names are the same for structures that are the same, and different for structures that are different.
answer
...
question
Draw the structure that corresponds with each name.
answer
(a) 3-ethyloctane (b) 4-isopropyldecane (c) sec-butylcycloheptane (d) 2,3-dimethyl-4-propylnonane (e) 2,2,4,4-tetramethylhexane (f) trans-1,3-diethylcyclopentane (g) cis-1-ethyl-4-methylcyclohexane (h) isobutylcyclopentane (i) tert-butylcyclohexane (j) pentylcyclohexane (k) cyclobutylcyclohexane (l) cis-1-bromo-3-chlorocyclohexane
question
Each of the following descriptions applies to more than one alkane. In each case, draw and name two structures that match the description.
answer
(a) an isopropylheptane (b) a diethyldecane (c) a cis-diethylcyclohexane (d) a trans-dihalocyclopentane (e) a (2,3-dimethylpentyl)cycloalkane (f) a bicyclononane
question
Write structures for a homologous series of alcohols having from one to six carbons.
answer
...
question
The following names are all incorrect or incomplete, but they represent real structures. Draw each structure and name it correctly.
answer
(a) 2-ethylpentane (b) 3-isopropylhexane (c) 5-chloro-4-methylhexane (d) 2-dimethylbutane (e) 2-cyclohexylbutane (f) 2,3-diethylcyclopentane
question
In each pair of compounds, which compound has the higher boiling point? Explain your reasoning
answer
(a) octane or 2,2,3-trimethylpentane (b) nonane or 2-methylheptane (c) 2,2,5-trimethylhexane or nonane
question
There are eight different five-carbon alkyl groups
answer
(a) Draw them. (b) Give them systematic names. (c) In each case, label the degree of substitution (primary, secondary, or tertiary) of the head carbon atom, bonded to the main chain.
question
Use a Newman projection, about the indicated bond, to draw the most stable conformer for each compound.
answer
(a) 3-methylpentane about the bond b) 3,3-dimethylhexane about the bond
question
Draw the two chair conformations of cis-1,3-dimethylcyclohexane and label all the positions as axial or equatorial (b) Label the higher-energy conformation and the lower-energy conformation. (c) The energy difference in these two conformations has been measured to be about 23 kJ (5.4 kcal) per mole. How much of this energy difference is due to the torsional energy of gauche relationships? (d) How much energy is due to the additional steric strain of the 1,3-diaxial interaction?
answer
...
question
raw the two chair conformations of each compound and label the substituents as axial and equatorial. In each case, determine which conformation is more stable
answer
(a) cis-1-ethyl-2-isopropylcyclohexane (b) trans-1-ethyl-2-isopropylcyclohexane (c) cis-1-ethyl-3-methylcyclohexane (d) trans-1-ethyl-3-methylcyclohexane (e) cis-1-ethyl-4-methylcyclohexane (f) trans-1-ethyl-4-methylcyclohexane
question
using what you know about the informational energies of substituted cyclohexanes, predit which of th two decal in isomers is more stable. Explain your reason
answer
...
question
Convert each Newman projection to the equivalent line-angle formula, and assign the IUPAC name.
answer
...
question
Draw Newman projections along the bond to show the most stable and least stable conformations of 3-ethyl- 2,4,4-trimethylheptane
answer
...
question
Conformational studies on ethane-1,2-diol ( ) have shown the most stable conformation about the central c-c bond to be the gauche conformation, which is 9.6 kJ/mol (2.3 kcal/mol) more stable than the anti conformation. Draw Newman projections of these conformers and explain this curious result.
answer
...
question
The most stable form of the common sugar glucose contains a six-membered ring in the chair conformation with all the substituents equatorial. Draw this most stable conformation of glucose.
answer
...
question
Determine whether the following objects are chiral or achiral.
answer
roll of duck tape can opener snow sled wind bottle cork screw wooden student chain salt shaker metal spoon rifle knotted rope
question
Make a model and draw a three dimensional structure for each compound. Then draw the mirror image of your original structure and determine whether the mirror image is the same compound. Label each structure as being chiral or archiral and label of enantiomers
answer
(a) cis-1,2-dimethylcyclobutane (b) trans-1,2-dimethylcyclobutane (c) cis- and trans-1,3-dimethylcyclobutane (d) 2-bromobutane
question
Identify each asymmetric carbon atom in the following structure:
answer
...
question
Identify each asymmetric carbon atom in the following structure:
answer
...
question
Draw the enantiomers of 1,3-dibromobutane and label them as (R) and (S). (Making a model is particularly helpful for this type of problem.
answer
...
question
When one of the enantiomers of butan-2-ol is placed in a polarimeter, the observed rotation is 4.05° counterclockwise. The solution was made by diluting 6.00 g of butan-2-ol to a total of 40.0 mL, and the solution was placed into a 200-mm polarimeter tube for the measurement. Determine the specific rotation for this enantiomer of butan-2-ol.
answer
Since it is levorotatory, this must be The concentration is 6.00 g per and the path length is The specific rotation is -13.5°. [a]D 25 = -4.05° 10.150212.002 = -13.5° 40.0 mL = 0.150 g>mL, 200 mm = 2
question
A solution of 2.0 g of in 10.0 mL of water was placed in a 100-mm cell. Using the sodium D line, a rotation of was found at 25 °C. Determine the specific rotation of 1+2-glyceraldehyde.
answer
...
question
A chiral sample pair give a rotation the is close to 180 degrees. How can one tell the weather this rotation is + 180 degrees or - 180 degrees
answer
...
question
If you had the two enantiomers of carvone in unmarked bottles, could you use just your nose and a polarimeter to determine:
answer
(a) whether it is the or enantiomer that smells like spearmint? (b) whether it is the (R) or (S) enantiomer that smells like spearmint? (c) With the information given in the drawings of carvone above, what can you add to your answers to (a) or (b)?
question
Calculate the e.e. and the specific rotation of a mixture containing 6.0 g of and 4.0 g of (-) - butan-2ol
answer
SOLUTION In this mixture, there is a 2.0 g excess of the isomer and a total of 10.0 g, for an e.e. of 20%. We can envision this mixture as 80% racemic [4.0 g and 4.0 g ] and 20% pure The specific rotation of enantiomerically pure is . The rotation of this mixture is = 1+13.5°2 * 120%2 = +2.7° observed rotation = 1rotation of pure enantiomer2 * 1o.p.2 1+2-butan-2-ol +13.5° o.p. = e.e. = ƒ6.0 - 4.0ƒ 6.0 + 4.0 = 2.0 10.0 = 20% (+) (-) (+). (+) 1-2-butan-2-ol. 1+2-butan-2-ol
question
A chemist finds that the addition of to the catalytic reduction of butan-2-one (Figure 5-16) gives a product that is slightly optically active, with a specific rotation of Calculate the percentages of and formed in this reaction. 1+2-butan-2-ol 1-2-butan-2-ol +0.45°.
answer
...
question
Draw each compound in its most stable conformation(s). Then draw it in its most symmetric conformation, and determine whether it is capable of showing optical activity. (a) 2-methylbutane (b) trans-1,2-dibromocyclohexane
answer
...
question
Make a model of each compound, draw it in its most symmetric conformation, and determine whether it is capable of showing optical activity
answer
(a) 1-bromo-1-chloroethane (b) 1-bromo-2-chloroethane (c) 1,2-dichloropropane (d) cis-1,3-dibromocyclohexane (e) trans-1,3-dibromocyclohexane (f) trans-1,4-dibromocyclohexane
question
Star each asymmetric carbon atom, label each as (R) or (S), and compare your result from part (1) with the prediction you would make based on the asymmetric carbons.
answer
...
question
Draw all the stereoisomers of a given structure, and identify the relationships between the stereoisomers.
answer
...
question
Classify molecules as chiral or achiral, and draw their mirror images. Identify and draw any mirror planes of symmetry
answer
...
question
Identify asymmetric carbon atoms, and name them using the (R) and (S) nomenclature.
answer
...
question
Calculate specific rotations from polarimetry data, and use specific rotations to determine the optical purity and the enantiomeric excess of mixtures.
answer
...
question
Use Fischer projections to represent the stereochemistry of compounds with one or more asymmetric carbon atoms.
answer
...
question
Identify pairs of enantiomers, diastereomers, and meso compounds, and explain how they differ in their physical and chemical properties.
answer
...
question
Explain how different types of stereoisomers can be separated.
answer
...
question
absolute configuration
answer
The detailed stereochemical picture of a molecule, including how the atoms are arranged in space. Alternatively, the (R) or (S) configuration at each asymmetric carbon atom.
question
achiral
answer
achiral Not chiral.
question
allenes
answer
Compounds having two double bonds that meet at a single carbon atom, C=C=C The two outer carbon atoms are trigonal planar, with their planes perpendicular to each other. Many substituted allenes are chiral.
question
asymmetric carbon atom
answer
(chiral carbon atom) A carbon atom that is bonded to four different groups
question
Cahn-Ingold-Prelog convention
answer
The accepted method for designating the absolute configuration of a chirality center (usually an asymmetric carbon) as either (R) or (S).
question
chiral
answer
Different from its mirror image.
question
chiral carbon atom
answer
asymmetric carbon atom) A carbon atom that is bonded to four different groups.
question
chirality center
answer
the IUPAC term for an atom holding a set of ligands in a spatial arrangement that is not superimposable on its mirror image
question
chiral probe
answer
A molecule or an object that is chiral and can use its own chirality to differentiate between mirror images. (
question
cis
answer
On the same side of a ring or double bond.
question
cis-trans isomers
answer
(geometric isomers) Isomers that differ in their geometric arrangement on a ring or double bond; cis-trans isomers are a subclass of diastereomers
question
configurations
answer
The two possible spatial arrangements around a chirality center or other stereocenter.
question
configurational isomers
answer
(see stereoisomers)
question
conformers
answer
(conformational isomers) Structures that differ only by rotations about single bonds. In most cases, conformers interconvert at room temperature; thus, they are not different compounds and not true isomers
question
constitutional isomers
answer
(structural isomers) Isomers that differ in the order in which their atoms are bonded together.
question
D-L configurations
answer
(Fischer- Rosanoff convention) D has the same relative configuration at (=) - glyceraldehyde. L as the same relative configuration as (-)
question
dextrorotatory, or (d)
answer
Rotating the plane of polarized light clockwise.
question
dextrorotatory, (+) or (d)
answer
Rotating the plane of polarized light clockwise.
question
diastereomers
answer
Stereoisomers that are not mirror images.
question
enantiomeric excess (e.e.)
answer
The excess of lone enatiomer in a mixture of enantiomer expressed as a percentage of the mixture. Similar to optical purity
question
enantiomers
answer
A pair of nonsuperimposable mirror-image molecules: mirror-image isomers.
question
Fischer projection
answer
A method for drawing an asymmetric carbon atom as a cross. The carbon chain is kept along the vertical, with the IUPAC numbering from top to bottom. Vertical bonds project away from the viewer, and horizontal bonds project toward the viewer.
question
geometric isomers
answer
(see cis-trans isomers)
question
internal mirror plane
answer
A plane of symmetry through the middle of a molecule, dividing the molecule into two mirror-image halves. A molecule with an internal mirror plane of symmetry cannot be chiral
question
isomers
answer
Different compounds with the same molecular formula.
question
Leftorium
answer
An imaginary store that sells the enantiomers of everyday chiral objects such as scissors, rifles, can openers, etc
question
levorotatory, or (l)
answer
Rotating the plane of polarized light counterclockwise.
question
meso compound
answer
An achiral compound that contains chirality centers (usually asymmetric carbon atoms). Originally, an achiral compound that has chiral diastereomers.
question
optical isomers
answer
(archaic; see enantiomers) Compounds with identical properties except for the direction in which they rotate polarized light.
question
optical activity
answer
Rotation of the plane of polarized light.
question
optically active
answer
Capable of rotating the plane of polarized light
question
optical purity (o.p.)
answer
the specific rotation of a mixture of two enantiomers, expressed as a percentage of the specific rotation of one of the pure enantiomers. similar to enantiomeric excess.
question
plane-polarized light
answer
Light composed of waves that vibrate in only one plane.
question
polarimeter
answer
An instrument that measures the rotation of plane-polarized light by an optically active compound. (
question
racemic mixture
answer
a mixture of equal quants of enantiomers , such that the mixtures is optically inactive
question
relative configuration
answer
The experimentally determined relationship between the configurations of two molecules, even though the absolute configuration of either may not be known.
question
resolution
answer
stereocenter
question
resolving agent
answer
A chiral compound (or chiral material on a chromatographic column) used for separating enantiomers.
question
2 " rule
answer
A molecule with n chiral carbon atoms might have as many as stereoisomers.
question
specific rotation
answer
A measure of a compound's ability to rotate the plane of polarized light, given bywhere c is concentration in g mL and l is length of sample cell (path length) in decimeters
question
stereocenter
answer
(stereogenic atom) An atom that gives rise to stereoisomers when its groups are interchanged. Asymmetric carbon atoms and double-bonded carbons in cis-trans alkenes are the most common stereocenters.
question
stereochemistry
answer
The study of the three-dimensional structure of molecules
question
stereoisomers
answer
The study of the three-dimensional structure of molecules
question
structural isomers
answer
(see constitutional isomers) Isomers that differ in the order in which their atoms are bonded together.
question
superimposable
answer
(see constitutional isomers) Isomers that differ in the order in which their atoms are bonded together.
question
trans
answer
On opposite sides of a ring or double bond.
