This document presents information about analytical chemistry from a student named Yeshwant B Rao. It defines analytical chemistry as the study and use of instruments and methods to separate, identify, and quantify matter. It discusses areas where chemical analysis is used like separation, identification, and quantitation. It also outlines different analytical chemistry methods including classical "wet chemistry" methods using separations like precipitation and distillation, as well as instrumental methods using chromatography and electrophoresis. Finally, it describes the work of analytical chemists in performing tests, separations, developing new measurement techniques, and advancing the field through collaboration.
1. Presented By:- Yeshwant B Rao
Class:- 9th
Admission number:- 5254593
SubjectTeacher:- Ms. A Vismaya
Chemistry:- Analytical
Chemistry
2. TABLE OF
CONTENTS
01
What is Analytical Chemistry??
02
Areas where Chemical Analysis is used
03
Analytical chemistry Methods
04
What do Analytical Chemists do?
3. It is the study and uses of instruments
and methods used to separate,
identify and quantify matter.
Analytical chemistry provides the
methods and tools needed for
understanding matter for answering
these questions:-
a. What?
b. Where?
c. How much?
What is
Analytical
Chemistry??
5. Also known as ‘Wet
chemical methods’
Classical methods use
separations such as
precipitation,
extraction,
distillation, boiling or
melting points
Analytical
chemistry
Methods
Used to separate
samples using
chromatography,
electrophoresis(laborat
ory technique used to
separate DNA, RNA, or
protein) .etc
Classical Methods Instrumental Methods:-
6. How can the
substance be
separated?
What is the identity of the
substance in the sample?
How much of substance
‘X’ is in the sample “Y”?
Areas where
Chemical
Analysis is
used
Separation
Identification
Quantitation
Detection
Does the sample even contain substance ‘X’?
7. What do
analytical
Chemists do?
Performing tests on samples using various scientific
techniques.
Perform separations based on differential chemical
properties.
Creates new ways to make measurements.
Contributingto advancements in the field by working with
experts in different areas of expertise and various
industries.