Topic 7.1 Analytic Techniques

Question 1

Mass spec of an element

Answer 1

The mass spectrum of an element often appears very simple, with a very small number of vertical lines, called peaks, each one representing an isotope of the element.

Question 2

Mass spec of a compound

Answer 2

The mass spectrum of inorganic compound often appears complex, with a large number of peaks

Question 3

The molecular ion peak

Answer 3

-The peak furthest to the right on the mass spec of an organic compound.
-greatest m/z value (mass to charge ratio)/
-It is the result of an organic molecule losing an electron(an electron collides with a molecule and knocks out an electron, so forming a positive ion).
-The m/z value of this peak indicates the relative molecular mass.

Question 4

The M+1 peak

Answer 4

The very small peak just to the right of the molecular ion peak.
This is caused by the presence of carbon in the molecule.

Question 5

Smaller peaks

Answer 5

The peaks with smaller m/z values result form fragmentation in the mass spectrometer, rearrangement reactions and the loss of more than on electron.
(Rearrangement is often unpredictable).

Question 6

Fragmentation in hydrocarbons

Answer 6

Fragmentation is very common and can often be used to work out the structure of an organic molecule.
Consider the breaking of a carbon-carbon bond in the molecular ion formed from a hydrocarbon. Two species are formed:
-another positive ion
-a neutral species (usually a radical)

Question 7

How to deduce structures form mass spec?

Answer 7

1. Consider possible techniques that have a molecular formula C3H8O
2. Look at the unique peaks
3. Which molecule(s) have a structure that can fragment to create that ion peak

Question 8

Example of fragmentation from mass spec;
Butane

Answer 8

Butane CH3CH2CH2CH3
29 peak: [CH3CH]+
43 peak: [CH3CH2CH2]
58 peak: [CH3CH2CH2CH3]+

Question 9

Example of fragmentation from mass spec;
Bromomethane

Answer 9

Bromomethane CH3Br
15 peak: [CH3]+
94 peak: [CH3 79^Br]+
96 peak: [CH3 81^Br]+

Question 10

Infrared

Answer 10

Infrared is a simple, quick method that both confirms which organic functional groups are present in the test compound and those that are not.

Question 11

In answers state both:

Answer 11

-Which peak on the spectrum you are referring to by their value
-Which feature in the structure is/is not present

Question 12

Fingerprinting

Answer 12

-Picking out functional group signal is difficult
-This part of the spectrum is unique for every compound, and so can be used as a ‘fingerprint’
-This region can also be used to check if a compound is pure
(A distinctive characteristic or pattern indicating the presence of a certain molecule).

Question 13

1oxidation ….

Answer 13

primary alcohols [O]–> aldehyde [O]–> carboxylic acid
secondy [O]–> ketone
tertiary can’t no space to form double bond with O