Unit 2.8 - Instrumental Analysis

Question 1

What does infrared spectroscopy correspond to?

Answer 1

Heat

Question 2

What can infrared spectroscopy do?

Answer 2

Detect the functional groups present in organic molecules

Question 3

Describe atoms in a molecule

Answer 3

Not static
Constantly vibrating

Question 4

What condition must apply for a bond to vibrate as opposed to break?

Answer 4

The energy put into the bond must be less than the bond enthalpy

Question 5

What are molecular vibrations stimulated by?

Answer 5

Absorbing radiation of the same frequency as the natural vibrational frequency of the bond

Question 6

Where are the frequencies that correspond to the natural vibrating frequency of most bonds?

Answer 6

In the infrared region of the electro magnetic spectrum

Question 7

Why does infrared radiation cause bonds to vibrate?

Answer 7

It has frequencies that are the same as the natural vibrational frequency of the bond

Question 8

Name for the frequencies at which bonds vibrate

Answer 8

Absorptions

Question 9

Absorptions

Answer 9

The frequencies at which bonds vibrate

Question 10

What does each bond do at a particular frequency?

Answer 10

Absorbs

Question 11

What does each bond absorb at?

Answer 11

A particular frequency

Question 12

At a greater mass, describe the frequency needed for the bond to absorb

Answer 12

Lower frequency

Question 13

With a weaker bond, describe the energy needed for the bond to absorb

Answer 13

Lower frequency

Question 14

What can different frequencies of infrared radiation cause bonds to do?

Answer 14

Vibrate in different ways

Question 15

What causes bonds to vibrate in different ways?

Answer 15

Different frequencies of infrared radiation

Question 16

2 ways in which bonds can vibrate

Answer 16

Stretching
Bending

Question 17

Diagram to represent bond stretching

Answer 17

(See notes)

Question 18

Diagram to represent bond bending

Answer 18

(See notes)

Question 19

Which 2 conditions must apply for infrared radiation to be absorbed?

Answer 19

Only vibrations…..
Resulting in a change in the dipole of the molecule
Having frequencies in the infrared region
….will absorb infrared radiation

Question 20

What is absorption stated in terms of and why?

Answer 20

Wave numbers
The numerical values of frequency and wavelength in the infrared region are not easy to handle

Question 21

Wave number

Answer 21

The reciprocal of wavelength in cm

Question 22

Wave number unit

Answer 22

cm^-1

Question 23

The absorption of what occurs in the 4000-2500cm^-1 region of the infrared spectrum?

Answer 23

Single bonds to hydrogen
O-H, N-H, C-H

Question 24

The absorption of what occurs in the 2500-2000cm^-1 region of the infrared spectrum?

Answer 24

Triple bonds
C=N

Question 25

The absorption of what occurs in the 2000-1500cm^-1 region of the infrared spectrum?

Answer 25

Double bonds
C=C, C=O

Question 26

The absorption of what occurs in the 1500-400cm^-1 region of the infrared spectrum?

Answer 26

Other absorptions
C-Cl

Question 27

What can also affect absorptions?

Answer 27

Neighbouring groups

Question 28

Give an example of neighbouring groups affecting absorptions

Answer 28

The OH group in an alcohol reacts different to the OH group in a carboxylic acid, where it’s next to a C=O group

Question 29

Functional group and absorbance of the C=O bond

Answer 29

Carbonyl
Strong (>80%) and sharp

Question 30

Functional group and absorbance of the O-H bond

Answer 30

Alcohol
Strong (>80%) and broad

Also, carboxylic acid
Medium (50-75%) and very broad

Question 31

Functional group and absorbance of the C-O bond

Answer 31

Alcohol, ester, carboxylic acid
Generally strong and sharp

Question 32

Functional group and absorbance of the C-H bond

Answer 32

Any molecule
Depends upon the molecule

Question 33

How can we differentiate between an alcohol and carboxylic acid in the infrared spectrum?

Answer 33

Alcohol absorbance = strong (>80%) and broad
Carboxylic acid = medium (50-75%) and very broad

Question 34

Describe the absorptions occurring that are strong and sharp

Answer 34

Occur over a small range of frequencies

Question 35

Describe the absorption occurring that are medium and very broad

Answer 35

Occur over a large range of frequencies

Question 36

What can infrared plectra give information about?

Answer 36

Which functional groups are present in a molecule

Question 37

Can we rely on the infrared spectrum alone to determine the structure of a molecule?

Answer 37

No, other information is required

Question 38

Name 4 types of molecules that contain the carbonyl (C=O) functional group

Answer 38

Aldehydes
Ketones
Carboxylic acids
Esters

Question 39

C=O bond nam

Answer 39

Carbonyl

Question 40

Carbonyl functional group bond

Answer 40

C=O

Question 41

How does the % transmittance axis appear on an infrared spectrum?

Answer 41

100% at the top, 0% at the bottom

Question 42

Why does the % Transmittance axis on an infrared spectrum have 100% at the top and 0% at the bottom?

Answer 42

Appears this way when the detector is set to calculate how much energy passed through the molecule at each frequency

Question 43

How does the % absorbance appear on an infrared spectrum?

Answer 43

0% at the top, 100% at the bottom

Question 44

Why does the % absorbance axis on an infrared spectrum have 0% at the top and 100% at the bottom?

Answer 44

Appears this way when the detector is set to calculate how much energy was absorbed at each frequency

Question 45

What goes along the axes on an infrared spectrum?

Answer 45

Wave number against % transmittance/absorbance

Question 46

What does the “fingerprint” region of an infrared spectrum contain?

Answer 46

Lots of peaks caused by the many C-C and C-H absorption that occur within a hydrocarbon

Question 47

Why does the fingerprint region of the infrared region contain lots of peaks?

Answer 47

Caused by the many C-C and C-H absorptions that occur within a hydrocarbon

Question 48

Which region of the infrared spectrum needs a lot of analysis to be useful?

Answer 48

The fingerprint region

Question 49

Where do most organic compounds peak on an infrared spectrum and why?

Answer 49

Approximately 3000cm^-1 due to absorption by C-H bonds

Question 50

Why do most organic compounds peak at approximately 3000cm^-1?

Answer 50

Due to absorption by C-H bonds

Question 51

What can be identified using infrared spectrums and how?

Answer 51

Functional groups
By determining whether or not the peaks characteristic of the bonds present in that functional group are present in the infrared spectrum

Question 52

What’s an indication of an O-H bond in an alcohol on the infrared spectrum?

Answer 52

Broad and sharp peak in the region of 3200-3550cm^-1

Question 53

What’s an indication of an O-H bond in a carboxylic acid on the infrared spectrum?

Answer 53

A very broad and medium peak in the region of 2500-3500cm^-1

Question 54

Conditions for ethanol (alcohol) and ethanoic acid (carboxylic acid) to react as an esterification

Answer 54

Presence of concentrated sulfuric acid
Mixture is warmed

Question 55

What features would be present on the infrared spectrum of an ester?

Answer 55

Peak in the C=O and C-O region
Very broad OH peak of a carboxylic acid is now missing (no O-H bonds are present)

Question 56

What would we have to do first before using IR spectroscopy to determine if an unknown alcohol is a primary or secondary alcohol?

Answer 56

Oxidise the alcohol under reflux
Take the IR spectrum of the product of this

Question 57

What would a primary alcohol’s IR spectrum show?

Answer 57

Carboxylic acid O-H peak
Peak corresponding to a carbonyl group

Question 58

What would a secondary alcohol’s IR spectrum show?

Answer 58

Only a carbonyl peak

Question 59

Difference between the IR spectrum’s of primary and secondary alcohols

Answer 59

Primary
Carboxylic acid O-H peak
Peak corresponding to a carbonyl group

Secondary
Only a carbonyl peak

Question 60

What’s an example of a practical application of IR spectroscopy

Answer 60

Modern breathalysers in police stations

Question 61

How do breathalysers use infrared spectroscopy?

Answer 61

When a sample of breath is given, it is tested for the ethanol OH peak, as there is water vapour in the breath sample as well that can interfere with the alcohol OH peak
So, the amount of alcohol is determined by looking at the relative % composition of the C-H peak and some computer calculations

Question 62

What can mass spectroscopy be used for?

Answer 62

Identifying different elements
Finding the relative isotopic masses of elements
Identify the molecular mass of a molecule and fragment ions from the molecule

Question 63

What is used in conjunction to other information to determine the molecular formula of an unknown molecule?

Answer 63

The molecular mass of a molecule and fragment ions from the molecule

Question 64

What other information as opposed to the molecular mass of a molecule and fragment ions from the molecule is required to work out the molecular formula of an unknown molecule?

Answer 64

Combustion analysis or infrared spectroscopy

Question 65

What’s the order of the events in the mass spectrometer?

Answer 65

Vapourisation
Ionisation
Acceleration
Deflection
Detection

Question 66

What type of compound’s mass spectrum contains a number of peaks?

Answer 66

A carbon compound

Question 67

What is the molecular mass of a compound on a mass spectrometer equal to?

Answer 67

The peak with the highest numerical value

Question 68

Where is the molecular mass of a compound found on the mass spectrometer?

Answer 68

The peak furthest to the right

Question 69

What’s the peak furthest to the right of the mass spectrometer known as and why?

Answer 69

The molecular ion peak
It represents the Mr of the compound

Question 70

What does the peak furthest to the right on the mass spectrometer represent?

Answer 70

The Mr of the compound

Question 71

Under which circumstance will there be 2 peaks as the molecular ion peaks on the mass spectrum and why?

Answer 71

When the compound contains chlorine
Due to the 2 isotopes 35Cl and 37Cl
The height of the 2 peaks, 35Cl:37Cl will be in the ratio 3:1

Question 72

What will the ratio between peaks 35Cl and 37Cl be?

Answer 72

3:1

Question 73

Structural elucidation

Answer 73

The process of determining the chemical structure of a compound

Question 74

The process of determining the chemical structure of a compound

Answer 74

Structural elucidation

Question 75

What type of compounds may be used in the exam for us to determine its chemical structure using the mass spectrometer?

Answer 75

Cyclic compounds
Compounds with up to 6 carbon atoms
Elements C, H, O, N and Cl

Question 76

What does each peak represent on the mass spectrometer?

Answer 76

An ion

Question 77

What does the height of the peak represent on a mass spectrum?

Answer 77

The abundance of the ion

Question 78

What forms when an atom is bombarded with high energy electrons in the ionisation chamber?

Answer 78

Molecular ions

Question 79

What is a molecular ion?

Answer 79

A carbocation formed when an atom is bombarded with high energy electrons in the ionisation chamber of the mass spectrometer

Question 80

How is a molecular ion produced in the ionisation chamber of a mass spectrometer?

Answer 80

The compound will lose 1 electron totform a positive carbocation(known as a radical ion as it has both positive charge and an unpaired electron
This carbocation formed is called the molecular ion

Question 81

What is the significance of the molecular ion formed in the ionisation chamber of the mass spectrum?

Answer 81

Has a peak on the far right of the mass spectrum, allowing us to identify the molecular mass of the compound

Question 82

What is the value of m/e of the two chlorine isotopes as their molecular ion peaks?

Answer 82

92 and 94

Question 83

Describe the molecular ion formed in the ionisation chamber and why is this significant?

Answer 83

Energetically unstable
Will fragment, breaking into smaller fragment ions and radicals

Question 84

What fragment to form smaller fragment ions and radicals and why?

Answer 84

Molecular ions
Energetically unstable

Question 85

Can we see the smaller fragments that result from the energetically unstable molecular ions? Why?

Answer 85

Yes
They can be accelerated and deflected by the magnetic field (radicals do not appear)

Question 86

Why do radicals formed following the fragmentation of the energetically unstable molecular ion not appear as peaks on the mass spectrometer?

Answer 86

They can’t be accelerated and deflected by the magnetic field

Question 87

How are ions produced during the fragmentation of the energetically unstable molecular ions?

Answer 87

Produced by breaking C-C bonds

Question 88

What is each peak to the molecule?

Answer 88

A unique fragment of it

Question 89

What does the set of peaks make up for a molecule?

Answer 89

Energy the fingerprint of the molecule

Question 90

How can we identify a molecule using a mass spectrometer?

Answer 90

Using the value of m/z corresponding to that of the molecular ion and a spectral database that lists all known fragment ions

Question 91

What does adding new compounds to the database increase the opportunity for?

Answer 91

Fingerprinting

Question 92

Which carbocations have the most abundant peaks in the mass spectrometer?

Answer 92

The more stable carbocations

Question 93

What do more stable carbocations have on the mass spectrometer?

Answer 93

More abundant peaks

Question 94

Is the molecular ion the most abundant ion in a compound why?

Answer 94

No
It will fragment and there are other more stable carbocations with more abundant peaks in the spectrum

Question 95

NMR spectroscopy

Answer 95

Nuclear magnetic resonance

Question 96

What causes resonance?

Answer 96

Absorption of energy

Question 97

What does NMR spectroscopy correspond to?

Answer 97

Energy being absorbed to cause a change within molecules

Question 98

What is the energy absorbed that causes a change in molecules in NMR spectroscopy for?

Answer 98

To reverse the spin of the nucleus of the atom within a magnetic field

Question 99

What does the chemical shift show?

Answer 99

The energy absorbed to cause a change within molecules

Question 100

What is NMR spectroscopy the basis for?

Answer 100

MRI cscans in medicine

Question 101

What technique is the basis of MRI cscans in medicine?

Answer 101

NMR spectroscopy

Question 102

Wha is an MRI scan sensitive to?

Answer 102

Hydrogen in water to give information about internal organs

Question 103

What are protons and neutrons known as?

Answer 103

Nucleons

Question 104

What is a property that nucleons have?

Answer 104

Spin, which can be in 2 opposite directions

Question 105

When does a nucleus behave like a tiny magnetic?

Answer 105

When there is an unpaired electron (any nucleus with an odd atomic number or odd atomic mass)

Question 106

What’s significant about protons (1H) and (13C)?

Answer 106

They’re nuclei with unpaired electrons, so they behave like tiny magnets

Question 107

What does the fact that 1H and 13C behave like tiny magnets mean for them?

Answer 107

In an applied magnetic field, these nuclei can either line up in the same direction or in the opposite direction to the applied field

Question 108

What’s significant about the way that the nuclei of 1H and 13C align themselves when they align themselves either in the same direction or in the opposite direction to an applied field?

Answer 108

There is a small energy difference between these 2 alignments

Question 109

How is energy supplied in an NMR spectrometer?

Answer 109

As low energy radio frequency radiation

Question 110

What happens to nuclei in the presence o the low energy radio frequency radiation supplied during NMR spectroscopy?

Answer 110

Absorbed - excitation a they go from the lower energy state to the higher energy state
Exactly the same energy is lost later (relaxation)

Question 111

What’s the name for the process of excitation and relaxation of nuclei with energy?

Answer 111

Resonance

Question 112

What does the magnetic field felt by a nucleus also depend upon?

Answer 112

Its enviornment

Question 113

What do we mean by the “enviornment” of a nucleus?

Answer 113

Atom bonded to different atoms or groups

Question 114

Chemical shift

Answer 114

The place on an NMR spectrum where the nucleus absorbs the radiation

Question 115

Unit of chemical shift

Answer 115

ppm (parts per million)

Question 116

What happens to the sample that is investigated during NMR spectroscopy?

Answer 116

Placed inside a large applied magnetic field
Irradiated with radio frequency radiation

Question 117

When is radiation absorbed (chemical shift)?

Answer 117

If it corresponds to the energy gap between the 2 ways that the nuclei are aligned

Question 118

What is the chemical shift measured relative to?

Answer 118

A reference chemical …
Tetramethylsilicane Si(CH3)4

Question 119

What is tetramethylsilicane used as?

Answer 119

A reference chemical for the chemical shift values

Question 120

Why is tetramethylsilicane used as the reference chemical for chemical shift values?

Answer 120

Has 12 identical protons
So,it Gives a strong signal at 0ppm

Question 121

Under which condition of NMR usually carried out?

Answer 121

In solution

Question 122

What’s the issue with regular solvents that would be used for NMR spectroscopy?

Answer 122

Most solvents contain carbon and hydrogen and so would produce signals on an NMR spectrum

Question 123

What is used to avoid the signals produced by carbon and hydrogen that’s usually in the solvents used for NMR spectroscopy?

Answer 123

Deuterium

Question 124

Deuterium

Answer 124

Isotope of hydrogen with 1 proton and 1 neutron

Question 125

Why are solvents containing deuterium instead of hydrogen used for NMR spectroscopy?

Answer 125

Has 1 proton and 1 neutron
Therefore, has an equal number of nucleons = does not show up on an NMR spectrum

Question 126

What’s the most common solvent used in NMR spectroscopy and why?

Answer 126

CDCL3
Although is does show up on the spectrum, the resulting peak is easily removed

Question 127

What contains a small % of the 13C isotope?

Answer 127

Naturally occurring carbon

Question 128

What does the presence of atom of the 13C isotope in naturally occurring carbon mean?

Answer 128

Means that organic compounds will absorb energy and 13C NMR spectra can be produced

Question 129

What goes along the x-axis for 13C spectroscopy?

Answer 129

Chemical shifts

Question 130

What goes along the y-axis for 13C spectroscopy?

Answer 130

Absorption

Question 131

What does the number of peaks on the 13C NMR spectrum represent?

Answer 131

The number of different carbon environments

Question 132

What does the chemical shift value of a 13C NMR spectrum represent?

Answer 132

The environment of each carbon

Question 133

What is meant by the environment of an atom?

Answer 133

Atom is bonded to different atoms or groups

Question 134

What makes a carbon be in a different Enviornment to another?

Answer 134

Next to a different atom, so it’s not chemically equivalent

Question 135

What is a carbon atom to another one if it’s bonded to a different atom?

Answer 135

Not chemically equivalent

Question 136

What’s the stages in identifying the structure of a molecule from he 13C NMR spectrum of it?

Answer 136

1. Identify the number of carbon environments
2. Look at the chemical shifts to find the environments
3. Structure - draw all possible structural isomers. Identify the number of 13C environments in each structure.

Question 137

What’s it important not to ignore when counting hydrogen environments?

Answer 137

The OH group

Question 138

What’s 1H spectroscopy also known as?

Answer 138

Proton spectroscopy

Question 139

What information is obtained form 1H NMR spectroscopy that’s similar to 13C NMR spectroscopy?

Answer 139

Number of peaks - number of different proton environments
Chemical shift value - gives the Environment for each proton

Question 140

What’s the additional information we obtain using 1H Spectroscopy?

Answer 140

Relative peak areas - ratio of the numbers of protons in each environment
Peak splitting - helps determine the position of a proton environment within the molecule (more in A2)

Question 141

What do relative peak areas/height of peaks show on H1 NMR spectroscopy represent?

Answer 141

Ratio of the numbers of protons in each environment

Question 142

What’s shows the Ratio of the numbers of protons in each environment in H1 NMR spectroscopy?

Answer 142

Relative peak areas

Question 143

Where will peak areas information be given?

Answer 143

Above each peak
Given in the information table
Labelled as integration

Question 144

What does comparing the integrals or areas for each peak on a H1 NMR spectrometer give us information about?

Answer 144

The relative numbers of protons in each environment

Question 145

What will the relative peak areas be in the ratio of for 1CH3 and 1CH2 in a molecule?

Answer 145

3:2

Question 146

What are the stages to working out a compound from H1 NMR spectroscopy?

Answer 146

Ratio of area
From molecular formula - how many protons?
How many proton environments (peaks)?
Work out the amount of protons in each environment from the ratio of area
Use the chemical shift values

Question 147

What do the peak areas when using H1 NMR spectra give us information about?

Answer 147

The numbers of protons in each environment

Question 148

Which methods should you use as examples when a question asks which “instrumental method to analyse a sample”?

Answer 148

IR spectroscopy
or
Mass spectroscopy

Question 149

Does the =O bond in a hydrocarbon count as one of the double bonds when working out the structure?

Answer 149

No