Introduction to Analytical Chemistry

Question

• Analytical Chemistry is the branch of chemistry that 
deals with the separation, identification, and 
quantification of chemical composition of substances 
( or chemical components of a sample).
• Employs chemical principles and analytical methods 
to separate, identify and quantify the chemical 
components of samples.
Analytical Chemistry 
•is concerned with the questions of "what 
chemicals are present, what are their 
characteristics and in what quantities are 
they present in any substance/material?“
• The process of determination or 
identification is called chemical 
analysis.
Classification of Chemical Analysis
•Qualitative analysis
• determination of chemical identity of species in the 
sample. 
 e.g. identity the elements, ions and compound in 
the sample.
•Quantitative analysis
•determination of the amount of species or analytes, 
in numerical terms (determining the quantity of the 
analyte present)
•Analyte = species of interest to be determined
Analytical Chemistry is classified into two general areas of 
chemical analysis
Focus in this course is quantitative methods of analysis
Separation of components/chemical species is often 
performed prior to analysis (by physical or chemical 
‘conditioning’)
Structural analysis – involves determining spatial 
arrangement of atoms in a molecule or crystalline 
compound or confirmation of the presence or position of 
certain organic functional groups (Qualitative)
Roles of Analytical Chemistry in 
Sciences & Our Everyday Life
• Manufacturing products for quality assurance (QA) 
• Clinical analysis
•Forensic science
• Food science
•Agriculture
• Metallurgical 
•Pharmaceutical chemistry 
• Environmental analysis, etc…

Specific examples of analysis
• Analysis of metal ores to determine the percentage 
of metal that can be obtained from the ore.
• Analysis to determine alcohol content of beer.
• Determine concentration of heavy metals in mining 
effluents/wastewaters.
• Analysis of blood for malaria parasites.
• Analysis of air to determine amounts of pollutants in 
air. (toxic gases – carbon monoxide)
1. Classification of Quantitative Methods 
of Analysis
• 1. Gravimetric: mass of pure analyte or a 
stoichiometric compound containing it.
• 2. Volumetric: volume is measured or used to 
determine amount of analyte via concentration.
• 3. Spectral/Spectroscopic: interaction of 
electromagnetic radiation (EM) and matter. 
Measures the intensity of EM emitted or absorbed 
by the analyte. Employs instruments such Atomic 
Absorption Spectroscopy (AAS).
4. Electrochemical methods
electrical properties of the analyte in solutions is 
measured such as potential, current, resistance and 
charge
5. Separation methods
 Chromatography - separation of individual 
analytes due to their interactions with two 
different phases based on their physio-chemical 
properties.
 Electrophoresis - separation technique that is based 
on the mobility of analytes (ions) in an electric field. 
Biological samples such as protein mixtures or DNA 
are analysed.
 Extractions – use two immiscible phase 
to separate a solute from one phase into the other.
• 6. Chemometrics: The statistical treatment of data.
Advanced Methods
Quantitative analysis

Steps in a Typical Quantitative Analysis
• 1) Define the problem: What is the problem – what needs to 
be found? Qualitative and/or quantitative). What will the 
information be used for? Who will use it? 
• (2) Select a method to be used: method must produce 
accurate and reliable results, sensitive, in time and cost 
effective . This is determined by the type of sample (e.g., blood 
samples).
• 3) Sampling & Samples: sample type, sample size, obtain “a 
representative sample” which represents average results. 
Sample selection ( knowledge of source & history).
• Random sampling is the common method employed. 
• 4) Sample preparation: convert the sample to a form suitable 
for the method of analysis.
• a) Drying solid sample to ensure accurate weight
 b) Sample dissolution or digestion
• c) Elimination of interferences or masking
 d) Conversion of analyte to a single or measurable
 form.
• 5) Replicate samples – splits of same sample to reduce errors
• 6) Calibration and measurement.
• 7) Calculation and data interpretation.
• 8) Evaluate results, estimate their reliability (statistical 
analysis) and reporting.

Sample dissolution or digestion
• Solvents used in dissolution or digestion of laboratory sample prior to 
analysis are:
• Water – used to dissolve samples consisting entirely of soluble salts. Mild 
heating is used for salts that dissolve slowly at room temperature.
• Acids – used primarily to dissolve portions of samples which do not 
dissolve in water. Addition of strong acids such as HCl & H2
SO4 will make 
the sample soluble. For stubborn samples, oxidizing agents such as 
concentrated H2
SO4
, HNO3
acids and aqua regia are used.
• Organic solvents – used to dissolve samples that contain organic 
compounds which do not dissolve in water.
• Fusion: Samples that fail to dissolve in the aqueous or organic solvent 
must be fused – dissolve in a molten solvent called a flux, that has acidic, 
basic, or oxidizing properties.

2. Qualitative Analysis
• A qualitative analysis determines the presence or 
absence of a particular analyte, but not the mass or 
concentration. That is, it is not related to quantity. 
• 1. Chemical Test
• 2. Flame Test
• 3. Blood Test
• 4. Covid-19 Test
• There are numerous 
qualitative chemical tests, 
examples include
– Acid test for 
carbonates in soil.
– Flame test for metals 
in ore.
– Kastle-Meyer test for 
the presence of 
hemoglobin in blood.
– Blood test for 
presence of HIV & 
AIDS virus 
Kastle-Meyer test blood. 
Phenolphthalein indicator is used to 
detect the presence of hemoglobin 
which turn pink.
Flame color test 
is due to 
emission of light 
of a particular 
wavelength by 
each element. 
Precision, Accuracy, and Error
what are the test questions that will be asked at the university level

Bot GPT 3.5 · Answer

1. What is the role of analytical chemistry in various fields such as manufacturing, clinical analysis, forensic science, and environmental analysis? 2. What are the steps involved in a typical quantitative analysis? 3. What are the different methods of quantitative analysis and how are they classified? 4. How is sample preparation done in analytical chemistry and why is it important? 5. What is the difference between qualitative and quantitative analysis? 6. Give examples of qualitative chemical tests used in analytical chemistry. 7. Explain the concepts of precision, accuracy, and error in analytical chemistry.