Final, Other Information

Question 1

Using a phase composition diagram, how do you find boiling point from a mole fraction?

Answer 1

the intersection of the bottom liquid curve with the mole fraction

Question 2

Using a phase composition diagram, how do you find the still head temperature and final mole fraction from an initial mole fraction?

Answer 2

from the intersection of the bottom liquid curve with the mole fraction, go left until you reach the other curve, then down to the lower curve

Question 3

Using a phase composition diagram, how do you find the composition of the distillate (final product) from a still head temperature?

Answer 3

find the intersection of the still head temperature with the liquid curve

Question 4

Using a phase composition diagram, how do you find the number of theoretical plates from an initial and final mole fraction?

Answer 4

(start and end on the lower liquid curve) go left until you reach the top curve, then down until you reach the bottom curve and repeat

each horizontal line you create is one theoretical plate

Question 5

In a phase composition diagram, which curve is which? Which curve are temperatures measured off of? What is the significance of a still head?

Answer 5

The top curve is the vapor, and the lower curve is the liquid.
Temperatures are always measured in the liquid curve.
Still head is when the vapor turns back into a liquid

Question 6

What are the two types of GC columns?

Answer 6

Capillary and Packed

Question 7

Describe the structure and size of the smaller of the two types of GC columns.

Answer 7

Capillary
made of fused silica capillary tube coated in the interior wall with polymer
give better separations, use less sample, and can separate complex mixtures containing many compounds, but they require more sensitive detectors.
~.3mm (.1-.5mm)

Question 8

Describe the structure and size of the larger of the two types of GC columns

Answer 8

Packed
made of tubing packed with small, uniform size, inert support coated with a thin film of nonvolatile liquid
~3mm (1/8in-1/4in) (3mm-6mm)

Question 9

What are the two types of GC detectors? Describe them. Which can detect water?

Answer 9

What are the two types of GC detectors?
TC (thermal conductivity)
works with a packed column
the column gas flow cools a heated filament and the change in temperature causes a change in electrical resistance. The difference between that and the reference (only the gas) is used
Can detect water
FID (flame ionization detector)
works with a capillary column
 the sample is burned in a H2 flame creating ions that cause the flame to conduct current, resulting in a signal

Question 10

Give the column type, detector type, and amount of sample used per analysis for our GC.

Answer 10

Our lab uses capillary columns and a FID. It requires about .1-.2 ul per analysis.

Question 11

Describe the effect of GC column temperature on separation and resolution.

Answer 11

The separation of peaks is determined by the column temperature: as it increases, the peaks elute more rapidly and separation decreases.

Low Temperatures=compounds with lower BPs spend more time in the mobile phase than those with higher BPs. The lower boiling compounds move faster and come off the column sooner.

High Temperatures=all compounds spend more time in the mobile phase, causing all compounds to move faster

Question 12

How do you determine theoretical yields?

Answer 12

use an H bar converter to move from grams reactant-> mole-> mole product -> grams product

Question 13

What is the equation for percent yield?

Answer 13

(measured)/(expected) * 100

Question 14

What is the equation for percent error?

Answer 14

(Expected-Measured)/(Expected) * 100

Question 15

What is the effect of a dissolved nonvolatile solid on the BP and FP of a solution?

Answer 15

Dissolved nonvolatile solid will always raise the BP of a solution
Dissolve nonvolatile solid will always decrease the FP of a solution

Question 16

What is the effect of soluble or insoluble impurities on MP results?

Answer 16

Soluble impurities lower MP and widen the MP range for a compound

Insoluble impurities should have no effect on MP

Melting Point is a range between the first visible melting and the final disappearance of all crystals

Question 17

How do you run a mixture melting point to determine the identity of a compound?

Answer 17

1: Run MP of compound
2: Rerun MP of compound mixed with known pure sample thought to be the same compound

(can keep doing MP with
gradually increasing mixtures of sample and known compound)

If the MP of mixture remains the same, the compounds are the same
If the MP of mixture is lower and wider, the compounds are not the same

Question 18

Describe eutectics. What would a graph of one look like?

Answer 18

Eutectic points are where the composition of a mixture of two solids have a MP lower than either pure substance or any other mixture of the two.

Y-Axis MP and X-Axis Composition

U/V ish curve that reaches its lowest point somewhere in the middle of the graph

Question 19

Describe azeotropes. What would a graph of one look like?

Answer 19

An azeotrope is a non-ideal binary liquid mixture. Low boiling azeotropes are more common. At the minimum or maximum BP azeotropic composition, the liquid and vapor have the same composition and cannot be separated by distillation. Changing the distillation pressure can move or eliminate the azeotrope.

Y-Axis BP and X-Axis Compoisiton

Two ovals that join their two corners somewhere in the graph, usually in a lower area

Question 20

How do you calculate retention factor when doing TLC plates?

Answer 20

(distance from starting line to center of sample spot)/(distance from starting line to final solvent front)

Question 21

How do you calculate theoretical plates when doing TLC plates?

Answer 21

N=16(distance from starting line to center of sample spot/diameter of spot)^2

Question 22

What is the relationship between compound polarity and Rf?

Answer 22

Lower the polarity the higher the Rf. The stronger a compound is bound to the adsorbent, the slower it moves up the TLC plate.

Question 23

What is the relationship between solvent/eluent polarity and Rf?

Answer 23

In general, the more polar the eluent, the more rapidly a given compound moves, and the higher the Rf. Polar compounds, which are strongly attracted to the absorbent, require polar eluents to attract them away from the adsorbent. Solvent polarity should be arranged so that it spreads compounds across plate.

Question 24

What would a TLC plate look like if the solvent was not polar enough, just right, or too polar?

Answer 24

Clumped together at the bottom, spread out in the middle, clumped together at the top

Question 25

What problems would this TLC error produce?

tanks not dry and/or saturated with solvent vapors

Answer 25

irreproducible Rf values

Question 26

What problems would this TLC error produce?

solvent above the starting line

Answer 26

samples leached from plate-> no spots after development

Question 27

What problems would this TLC error produce?

solvent reaches top of plate

Answer 27

bad Rf values

Question 28

What problems would this TLC error produce?

sample too concentrated

Answer 28

tailing spots

Question 29

What problems would this TLC error produce?

too much sample volume

Answer 29

large, poorly resolved spots

Question 30

What problems would this TLC error produce?

spots (starting line) placed too close to edge of plate

Answer 30

distorted spots

Question 31

Arrange these compounds in order of polarity, in decreasing order.

Acetone, CH2Cl2, Ethyl Acetate, Hexane, Toluene, Water

Answer 31

Water-> Acetone-> Ethyl Acetate-> CH2Cl2 -> Toluene -> Hexane

Question 32

In the column chromatography experiment, what dyes did we elute and what compounds did we use to elute them?

Answer 32

We used dyes of fluorescein and methylene blue. Methylene blue was eluted with ethanol, then water was used to elute fluorescein

Question 33

In the column chromatography experiment, how do you measure theoretical plates?

Answer 33

The number of theoretical plates were found using the equation N=16(tR/wB)2.

TR is retention time, measured by the distance between the top of the column and the center of the dye

WB is baseline width, measured by the height of the dye band

*Both are measured when the band is near the bottom

Question 34

What are the four solvent selection criteria for recrystallization?

Answer 34

The compound being purified must be insoluble in the solvent at RT.
The compound should be soluble in boiling solvent.
The solvent BP must be lower than the compound MP.
Abundant crystals should be recoverable from cool solvent.

Question 35

Describe the major problem that can occur in recrystallization and how to avoid it.

Answer 35

Oiling Out: When a compound forms a molten oil rather than crystals

Fixable with seed crystal or proper solvent selection

(may also happen when heating too fast)

Question 36

Define vicinal dihalide

Answer 36

Halogens are attached to adjacent carbons

Question 37

Define diastereomers

Answer 37

Stereoisomers that are not mirror images of each other

Question 38

Define enantiomer

Answer 38

Chiral compounds which are non-superimposable mirror images of each other

Question 39

Define racemic mixture

Answer 39

A 50/50 mixture of enantiomers

Question 40

Define meso compound

Answer 40

A compound containing chiral centers but also containing an internal plane of symmetry, making it optically inactive

Question 41

Define optically active

Answer 41

A chiral compound which rotates the plane of polarized light

Question 42

Describe R/S notation

Answer 42

Refer to absolute configuration of groups about a chiral center, going from largest to smallest with H placed away from the observer.

Question 43

Describe Fisher Projections

Answer 43

compound is depicted as a grid of lines, those pointing up are back, those pointing to the sides are forward

Question 44

How do you determine the possible products from the dehydration of a branched alcohol?

Answer 44

put a positive charge where the OH used to be, then form a resonance structure

the double bond can be formed in either direction, giving you four products (with possible repeats)

Question 45

What does a chemical test of 2% Br2 in CH2Cl2 test for? What does a positive test look like?

Answer 45

Alkene double bonds

Loss of bromine color (dark, red-brown)

Question 46

What does a chemical test of 1% KMnO4 in H2O (+ DME) test for? What does a positive test look like?

Answer 46

Alkene double bonds

Loss of permanganate color (purple), turns brown

Question 47

What does a chemical test of Ce(NH4)2(NO3)6 (+ DME) test for? What does a positive test look like?

Answer 47

Alcohols

Formation of a colored complex

Question 48

Define salting out in relation to extractions

Answer 48

K=Partition Coefficient: The ratio of the solubility of a compound in the organic layer to its solubility in the water layer

Salting Out: K can be increased by adding inorganic salts to the aqueous phase. This reduces the solubility of the organic compound in the aqueous phase, driving it into the organic solvent phase, improving extraction efficiency.

Question 49

Define a wash in relation to extractions

Answer 49

Pulling unwanted impurities away from the desired compound

Question 50

Describe the use of acid/base reactions in extractions

Answer 50

in our extraction, reacting some of our compounds with bases turned them into ions, which were then pulled into the aqueous layer

Question 51

What is the general mechanism for a Diels-Alder reaction?

Answer 51

Electrons from double bond on dienophile connect to one of the double bonds of the diene, which pushes that double bond over and makes the electrons from the other double bond connect to the dienophile

Question 52

What is the stereochemistry of a Diels-Alder reaction?

Answer 52

Stereospecific: Syn Addition with retained configuration of the dienophile
May produce enantiomers
Diene only reacts in the c-cis conformation, if it is in the c-trans it will either change to c-cis or not react
Occurs primarily in an endo fashion (substituents are pointing inside of the largest ring)

Question 53

What is an emulsion? How might you get rid of one?

Answer 53

Suspensions of droplets of one immiscible liquid in another. These are more likely to form in the mixture is shaken excessively. They can be broken with the addition of NaCl solution, stirring with a glass rod, allowing to sit, or centrifuging.