16
Homework Problem Set 2 Iverson CH320N Due Friday, February 3 1 Chemistry 320N Dr. Brent Iverson 2nd Homework January 27, 2017 NAME (Print): _____________________________ SIGNATURE: _____________________________ Please print the first three letters of your last name in the three boxes

NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

  • Upload
    others

  • View
    7

  • Download
    0

Embed Size (px)

Citation preview

Page 1: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

1

Chemistry 320NDr. Brent Iverson2nd HomeworkJanuary 27, 2017

NAME (Print): _____________________________

SIGNATURE: _____________________________

Please print the first three letters of your last name in the three boxes

Page 2: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

2

We are trying something new here. This homework will be turned in on line. Go to the canvas site and look for the assignment, Homework 2. (Canvas calls this a quiz, but is really just a homework.) Click on that link. You will use this pdf as a guide to the problems, especially as a reference for structures and spectra.

Page 3: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

3

(1 pt. each) Circle all the statements relating to the theory of NMR that are true.

1. A changing magnetic field will cause charges to move.

2. A changing magnetic field will not cause charges to move.

3. Moving charge creates a magnetic field.

4. Moving charge does not create a magnetic field.

5. Electrons, neutrons, and protons are all charged.

6. Neutrons and protons are both charged.

7. Only electrons are charged.

8. Both electrons and protons are charged.

9. Atomic nuclei with an odd atomic mass or an odd atomic number have a quantum mechanical property called spin.

10. The best way to the think about nuclear spin is as if nuclear postive charge (from the protons) were circulating within the nucleus, thereby creating a small magnetic field that can interact with a strong laboratory magnetic field.

11. 1H and 13C nuclei have a spin quantum number of 2.

12. 1H and 13C nuclei have a spin quantum number of 1.

13. 1H and 13C nuclei have a spin quantum number of 1/2.

15. The two spins states of a 1H nucleus in a strong magnetic field are +1 and -1.

14. The two spins states of a 1H nucleus in a strong magnetic field are +1/2 and -1/2.

16. The two spins states of a 1H nucleus in a strong magnetic field are +2 and -2.

Page 4: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

4

17. A magnetic field will cause the electron density to circulate in the molecule.

18. The circulating electron density will create its own magnetic field that is in the same direction as the laboratory magnetic field.

19. The circulating electron density will create its own magnetic field that opposes the laboratory magnetic field.

21. The difference in energy between +1/2 and -1/2 spin states for a given 1H nucleus is directly proportional to the strength of the external magnetic field.

22. If electromagnetic energy of the precise energy diffence between the +1/2 and -1/2 spins states is used to irradiate the sample, the energy is absorbed as the spin "flips" from the +1/2 state to the -1/2 state.

23. "Resonance" in NMR refers to the phenomenon of absorption of energy when a nuclear spin "flips".

20. A 1H nucleus with spin +1/2 will be lower in energy than an equivalent nucleus with a spin of -1/2

24. The magnetic field “felt” by any given nucleus in a molecule is actually the sum of (i) the external magnetic field plus (ii) the magnetic field of the electrons around the nucleus plus (iii) the magnetic fields caused by the different spin states of adjacent nuclei.

26. A 1H nucleus surrounded by greater electron density feels a stronger net magnetic field (external magnetic field plus the induced magnetic field from the circulating electron density) compared to a 1H nucleus surrounded by less electron density.

25. A 1H nucleus surrounded by greater electron density feels a weaker net magnetic field (external magnetic field plus the induced magnetic field from the circulating electron density) compared to a 1H nucleus surrounded by less electron density.

27. A 1H nucleus surrounded by greater electron density is considered to be more shielded and comes into resonance (absorbs electromgnetic radiation) at a lower frequency (smaller ppm).

28. A 1H nucleus surrounded by greater electron density is considered to be more shielded and comes into resonance (absorbs electromgnetic radiation) at a higher frequency (larger ppm).

(1 pt. each) Suppose you place a sample of a molecule in a very strong laboratory magnetic field. Circle the following statements that are true:

Page 5: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

5

(not graded) These two questions will not be graded, but turn them in anyway. They will help you organize your thoughts regarding NMR and MRI. Something linke this might show up on the exam, and that will be graded!

30. Suppose a relative of yours is having an MRI. In no more than four sentences, explain to them what is happening when they have the MRI scan.

(not graded) These two questions will not be graded, but turn them in anyway. They will help you organize your thoughts regarding NMR and MRI.

29. In no more than four sentences, explain what happens in a 1H NMR experiment.

The popular medical diagnostic technique of magnetic resonance imaging (MRI) is based on the same principles as NMR, namely the flipping (i.e. resonance) of nuclear spins of H atoms by radio frequency irradiation when a patient is placed in a strong magnetic field. Magnetic field gradients are used to gain imaging information, and rotation of the gradient around the center of the object gives imaging in an entire plane (i.e. slice inside patient). In an MRI image, you are looking at individual slices that when stacked make up the three-dimensional image of relative amounts of H atoms, especially the H atoms from water and fat, in the different tissues.

The 1H NMR experiment is carried out by placing a sample in a strong magnetic field, then the sample is irradiated with electromagnetic radiation. When the energy of the electromagnetic radiation corresponds exactly to the difference in energy between the +1/2 and -1/2 nuclear spin states, the nuclei absorb the energy as the nuclear spins are excited (i.e. "flip" when they come into "resonance" with the electromagnetic radiation) from the lower energy spin state (+1/2) to the higher energy spin state (-1/2). The NMR spectrum is a plot of absorbance vs. frequency scaled for magnetic field strength, wherein chemical shift (distance from the TMS signal at 0 ppm) is correlated with the functional groups present, the connectivity of atoms in molecules can be determined by splitting, and the relative ratio of different equivalent H atoms in the molecule is proportional to the relative integrations of the different signals.

Page 6: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

6

A

A

B

A

B

A

A

A

A

B

A

A

B

CC

CC

H

H

H

HH

H

H

H

H

H

CC

CC

C H

HH

HH

H

H

HH H

C

A

A

A

BC

B

CC

CC

C

H

H

H

H H

H H

HH

H

C

B

A

C

D

B

F

B

E

B:A

D:E:F:B:C:A

B:C:A

31. For this problem you need to ignore spin-spin splitting, in that we consider one signal to be derived from one set of equivalent H atoms, regardless of splitting pattern. For each of the next three molecules, on the lines provided state how many sets of equivalent sets of H atoms are present, next state how many different signals will appear in the 1H NMR spectrum of each, and finally, the relative ratios of the integrations of the different signals (i.e. 1:2 or 1:2:6, etc.).

Number ofsets of equivlaent

H atoms

Number ofdifferent signals inthe NMR spectrum

Ratio ofsignal

integrations

2 2 4:6 (or 2:3)

3 3 1:3:6

6 6 1:1:1:2:2:3

O

C

Molecule 1

Molecule 2

Molecule 3

Page 7: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

7

H3CCH2

OCH3

32. For the following molecules, in the boxes provided, state the number of peaks you expect in each 1H NMR signal due to spin-spin splitting.

41

3

H3C CH2

CH2CH3

O

Molecule 1

Methyl 1

Methylene 1

OMethyl

Molecule 2

1

Methyl 1

3

6

3

Methyl 2

Methylene 1

Methylene 2

Page 8: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

8

CH

CH3

CH3H3CH3C

CCH2

CH3

O

H3CC

OCH2

CH3

O

H3CCH2

CCH2

CH3HO H

H3CC

CH2CH

CH3

O CH3

H3CCH2

CHCH3

CH3

H3CCH2

CH2C

CHCH3

O

CH3

H3CCH2

CHCH2

CH3

CH2H3C

H3CCH2

CH2CH2

CH3

B

A

C

G

E

C C

C CH2

CH3

H

H3C

O

CH3

H3CC

CH3

HO HH3C

CH2C

CH3

HO H

D

CH

CH3

CH3C

O

OH

33. For this question there are NMR spectra.  The relative integrations are given above each signal.  Assign each spectra to the appropriate structure out of the following possibilities.  Each NMR spectrum has a letter on it.  Choose the appropriate letter for each molecule.  Notice that not all of the molecules below will have an associated letter, as there are only seven spectra but thirteen molecules.  IF NO SPECTRA CORRESPOND TO THE MOLECULE, CHOOSE "N/A".  You didn't want us to make it too easy, did you?  We recommend you print out the problems as the spectra are easier to read when printed.

Molecule 1 Molecule 2Molecule 3

Molecule 4

Molecule 5

Molecule 6

Molecule 8

Molecule 7

Molecule 10

Molecule 13Molecule 11

Molecule 12

Molecule 9

F

N/A

N/A

N/A

N/A

N/AN/A

Page 9: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

9

A

012PPM

A

B

C

3H

2H

3HH3C

CCH2

CH3

O

B A

C

Page 10: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

10

B

01234PPM

H3CC

OCH2

CH3

O

A

B

C

C

A

B

3H

2H

3H

Page 11: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

11

C

0123456PPM

C C

C CH2

CH3

H

H3C

O

A

BC

D

1H

3H3H3H

B

CD

ACH3

2H

EE

Page 12: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

12

D

0123PPM

H3CC

CH3

HO H

1H1H

6H

A B

CA

B

CC

Page 13: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

13

E

H3CCH2

CH

CH3

CH3

012PPM

1H2H

3H

6H

A B

C

D

A

B

D

C

C

Page 14: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

14

F

012PPM

H3CC

CH2CH

CH3

O CH3

2H

1H

3H

6H

A

B

C

D

D

D

C

B A

Page 15: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

15

G

CH

CH3

CH3H3C

012PPM

1H

9H

A

B

B

B

B

A

Page 16: NAME (Print): Chemistry 320N Dr. Brent Iverson SIGNATURE:iverson.cm.utexas.edu/courses/310N/Spring2017HWpdfs/Sp17HWSe… · Homework Problem Set 2 Iverson CH320N Due Friday, February

Homework Problem Set 2 Iverson CH320N Due Friday, February 3

16

Br

1. Mg°, ether

2.

O

3. Mild HCl/H2O?

OH

OH

racemic OH

OH

HO

Answer A

Answer B

Answer C

Answer D

34. For the following sequence of reactions, choose the answer the best describes the expected product

HO

Answer E