H-NMR Spectroscopy

Question 1

Standard chemical shift for CH3

Answer 1

0.9 ppm

Question 2

Standard chemical shift for CH2

Answer 2

1.2 ppm

Question 3

Standard chemical shift for CH

Answer 3

1.7 ppm

Question 4

Chemical shift for an acid proton (COO-H)

Answer 4

about 12 ppm

Question 5

Chemical shift for an aldehyde proton

Answer 5

about 10 ppm

Question 6

Chemical shift for aromatic protons

Answer 6

6.5 - 8.5 ppm

Question 7

Chemical shift for alkene protons

Answer 7

5.5 - 6.5 ppm

Question 8

Chemical shift for saturated alkanes next to O (bonded to the O in esters, alcohols, or ethers).

Answer 8

3 - 4.5 ppm

Question 9

Chemical shift for saturated alkanes not next to O (bonded to aryl, allyl, halogen, N, or carbonyl)

Answer 9

2 - 3 ppm

Question 10

What is the effect of an alcohol or an ether O on the chemical shift of alpha protons?

Answer 10

+2 ppm

Question 11

What is the effect on chemical shift of an alkene adjacent to the alkyl group containing the protons?

Answer 11

+1 ppm

Question 12

What is the chemical shift range for protons on acids and aldehydes?

Answer 12

9 - 13 ppm

Question 13

What does the location of a signal on a proton NMR spectrum tell us?

Answer 13

How shielded or deshielded a proton is.

Question 14

What does splitting on a proton NMR signal tell us?

Answer 14

The number of protons on adjacent carbons.

Question 15

When are two hydrogens on the same carbon not equivalent?

Answer 15

1) When they are in different electronic environments due to cis/trans positioning on an alkene.
2) When they are on in different electronic environments due to being axial/equatorial to a heteroatom or functional group on a substituted ring system.
3) When replacing one of the protons on an sp3 carbon with another molecule would make the molecule a diastereomer (i.e., when there is already another chiral center on the ring).

Question 16

How does the electronegativity of an adjacent heteroatom affect the chemical shift of an alpha proton?

Answer 16

The more electronegative the heteroatom, the more deshielded the proton(s) and the greater the chemical shift.

Question 17

What is the chemical shift for H3C–I?

Answer 17

2.1 ppm

Question 18

What is the chemical shift for H3C–Br?

Answer 18

2.7 ppm

Question 19

What is the chemical shift for H3C–Cl?

Answer 19

3.0 ppm

Question 20

What is the chemical shift for H3C–F?

Answer 20

4.3 ppm

Question 21

What is the chemical shift for H3C–NH2?

Answer 21

2.4 ppm

Question 22

Which functional groups are worth about a 1 ppm downfield shift for adjacent carbon protons?

Answer 22

1) Alkenes
2) Alkynes
3) Carbonyls (acids, aldehydes, ketones, esters, and amides)
4) Nitriles (CN)
5) Sulfurs (SH and SR)

Question 23

Which functional groups are worth about a 2 ppm downfield shift for adjacent carbon protons?

Answer 23

1) Oxygens (OH and OR)
2) Halogens
3) Amides
4) Sulfone

Question 24

Which functional groups are worth about a 1.5 ppm downfield shift for adjacent carbon protons?

Answer 24

1) Aryl rings
2) Amines
3) Sulfoxide

Question 25

Which functional groups are worth about a 2.5 ppm downfield shift for adjacent carbon protons?

Answer 25

1) Aryl ether (-OAr)

Question 26

Which functional groups are worth about a 3 ppm downfield shift for adjacent carbon protons?

Answer 26

1) Nitro groups (-NO2)
2) esters (-OCOR)
3) Fluoro (-F)

Question 27

What is it called when the electron density of an aromatic ring actually increases the magnetic field felt by protons on the ring?

Answer 27

Anisotropy

Question 28

What is the effect of anisotropy on the chemical shift of protons on an aromatic ring?

Answer 28

It increases chemical shift.

Question 29

What is the effect of EWG’s on the ring on the chemical shift of aromatic protons?

Answer 29

The chemical shift will be increased, especially in the ortho and para positions (observe a chemical shift greater than benzene).

Question 30

What is the effect of EDG’s on the ring on the chemical shift of aromatic protons?

Answer 30

The chemical shift will be decreased, especially in the ortho and para positions (observe a chemical shift less than benzene).

Question 31

What is the chemical shift of aromatic protons in benzene?

Answer 31

7.27 ppm

Question 32

What is the chemical shift range of alkene protons?

Answer 32

5.5 to 6.5 ppm

Question 33

What is the chemical shift range of alkyne protons?

Answer 33

About 2 ppm

Question 34

Why is the chemical shift of alkynes so much lower than for alkenes?

Answer 34

The pi system of alkenes enhances the magnetic field felt by the protons; the pi system of alkynes reduces the magnetic field felt by the protons (due to pi orbitals lining up perpendicular to the field).

Question 35

What is the chemical shift range for aldehyde protons?

Answer 35

9.0 - 10.0 ppm

Question 36

What is the chemical shift range for acid protons?

Answer 36

about 12 ppm

Question 37

Which signal is often very broad due to proton exchange between molecules?

Answer 37

Acid signals

Question 38

Why can protons attached to O and N be in a variety of chemical environments (and, therefore, their chemical shifts vary broadly)?

Answer 38

Because of proton exchange due to hydrogen bonding. Can broaden peaks, making them singlets.

Question 39

What is the chemical shift range for protons attached to oxygen?

Answer 39

2 - 5 ppm

Question 40

What is the chemical shift range for protons attached to nitrogen?

Answer 40

1.2 - 4 ppm

Question 41

Why is the signal for a proton with one neighboring hydrogen split into two peaks?

Answer 41

If the spin of the neighboring proton is aligned with the magnetic field, the chemical shift is increased; if it is aligned against the magnetic field, the proton’s chemical shit is decreased. Because their is a 50/50 chance that the spin of the neighboring proton is with (or against) the magnetic field, the proton’s signal is split into two peaks, one just above its chemical shift and one just below.

Question 42

If a proton’s peak is split by N equivalent protons, how many peaks is its signal split into?

Answer 42

N+1 peaks

Question 43

What should you suspect if you see a tertiary C-H peak with seven peaks?

Answer 43

An isopropyl group

Question 44

Which type of protons bonded to the same carbon will split each other?

Answer 44

Diastereotopic protons

Question 45

What will be true of the J value (or coupling constant) of protons that are coupled to each other?

Answer 45

The J value will be the same for both protons; their peaks will be split by the same distance.

Question 46

What part of an H-NMR spectrum provides a good method for determining cis and trans protons?

Answer 46

Coupling constants

Question 47

Why do trans hydrogens cause a greater coupling constant in each other than cis hydrogens?

Answer 47

Coupling is a through-bond effect, and trans hydrogens have good overlap between the C-H sigma bonding orbital of one hydrogen and the C-H sigma anti-bonding orbital of the other hydrogen. Cis hydrogens have poor overlap.

Question 48

What is the typical coupling constant range for trans hydrogens?

Answer 48

15-18 Hz

Question 49

What is the typical coupling constant range for cis hydrogens?

Answer 49

8-12 Hz

Question 50

What happens if a proton’s signal is split by more than one set of hydrogens?

Answer 50

You’ll get complex coupling. The largest coupling constant will split the signal into N+1 peaks. The next larges will split each peak from the first split into another set of N+1 peaks.

Question 51

What sort of coupling will a 1,4 di-substituted aromatic ring have?

Answer 51

A pair of doublets that lean (not perfectly 1:1 in height).

Question 52

At what chemical shift are benzene protons observed?

Answer 52

7.2 ppm

Question 53

If you have a pair of leaning doublets, both just below 7.2 ppm?

Answer 53

An aromatic ring with two EDG’s.

Question 54

What sort of signal will you have for an aromatic ring with the same group 1,4-disubstituted on the ring?

Answer 54

A singlet.

Question 55

If a proton is split by 1 other proton, how many peaks will its signal have? What will the ratio of their heights be?

Answer 55

2 peaks in a 1:1 ratio

Question 56

If a proton is split by 2 equivalent protons, how many peaks will its signal have? What will the ratio of their heights be?

Answer 56

3 peaks in a 1:2:1 ratio

Question 57

If a proton is split by 3 equivalent protons, how many peaks will its signal have? What will the ratio of their heights be?

Answer 57

4 peaks in a 1:3:3:1 ratio

Question 58

If a proton is split by 4 equivalent protons, how many peaks will its signal have? What will the ratio of their heights be?

Answer 58

5 peaks in a 1:4:6:4:1 ratio

Question 59

If a proton is split by 5 equivalent protons, how many peaks will its signal have? What will the ratio of their heights be?

Answer 59

6 peaks in a 1:5:10:10:5:1 ratio

Question 60

If a proton is split by 6 equivalent protons, how many peaks will its signal have? What will the ratio of their heights be?

Answer 60

7 peaks in a 1:6:15:20:15:6:1 ratio

Question 61

What functional group should you suspect if you see a septet slightly higher than a doublet in the alkyl hydrogen range?

Answer 61

an isopropyl group

Question 62

What functional group should you suspect if you see a quartet slightly higher than a triplet in the alkyl hydrogen range?

Answer 62

an ethyl group