|
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Physical
Chemistry 2-1
|
3.5
|
C
|
|
ObjectiveThrough
the study of physical chemistry courses, the students would master the basic
theories, principles of physical chemistry. The students would also learn to
use the knowledge of physical chemistry to analyze and solve practical
problems. The knowledge of physical chemistry would provide a foothold for
students to learn other chemical and related courses.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Physical
Chemistry 2-2
|
2.5
|
C
|
|
ObjectiveThrough
the study of physical chemistry courses, the students would master the basic
theories, principles of physical chemistry. The students would also learn to
use the knowledge of physical chemistry to analyze and solve practical
problems. The knowledge of physical chemistry would provide a foothold for
students to learn other chemical and related courses.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Graduation
Thesis
|
6
|
C
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Instrument
Analysis
|
3
|
C
|
|
The
purpose of the instrument analysis course is to let the students understand
the method/principle, instrument structure and applying scope of the common
analytical instruments, and have the ability to solve the corresponding
problems by using the corresponding methods of instrument analysis. The main
content of the course covers most of the analytical methods used in chemistry
researches, including atomic spectrum/mass spectrometry, molecular
spectroscopy, electrochemical analysis, chromatography and mass spectrometry.
This course is for the sophomore of Boling class of Chemistry. The instrument
analysis course is mainly taught by teachers, and many questions are inserted
during the teaching. During learning the course, the students will master the
professional knowledge and get the ability and habit of thinking diversely
and creatively.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Experiments
in Physical Chemistry 2-1
|
2
|
C
|
|
Physical
Chemistry experiment is a fundamental course followed by the Inorganic
Chemistry experiment, Analytical Chemistry experiment and Organic Chemistry
experiment. This course combines the basic research tools and methods needed
in any branch of the chemistry field. When the students finish this course,
they will be able to obtain the following knowledge: (i) the method and
technology of temperature control and measuring; (ii) the method and
technology of pressure control and measuring; (iii) the experimental
technique of electrochemistry; (iv) measuring technique of liquor
concentration etc.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Experiments
in Physical Chemistry 2-2
|
2
|
C
|
|
Physical
Chemistry experiment is a fundamental course followed by the Inorganic
Chemistry experiment, Analytical Chemistry experiment and Organic Chemistry
experiment. This course combines the basic research tools and methods needed
in any branch of the chemistry field. When the students finish this course,
they will be able to obtain the following knowledge: (i) the method and
technology of temperature control and measuring; (ii) the method and
technology of pressure control and measuring; (iii) the experimental
technique of electrochemistry; (iv) measuring technique of liquor
concentration etc.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Instrumental
Analysis Experiment
|
2
|
C
|
|
The
course covers 18 experiments that are designed to provide the students with
hands-on experience in a wide variety of analytical instrumentation. Modern
instrumental methods including ICP-AES, AAS, IR, NMR, GC, HPLC and GC-MS will
be employed. The students will learn instrument operation, data acquisition,
and data analyses from each experiment.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Comprehensive
Chemistry Experiment ( 1 )
|
2.5
|
C
|
|
Comprehensive
Experiments in Chemistry was established in 1998 on the basis of the original
inorganic chemistry laboratory, analytical chemical laboratory, the organic
synthesis in the laboratory, organic analytical laboratory, physical
chemistry laboratory, polymer chemistry-polymer physics laboratory,
laboratory of catalysis laboratory.“Comprehensive Experiments in Chemistry”
involves in inorganic chemistry, instrumental analysis, a plurality of
organic chemistry, physical chemistry, polymer chemistry and physics,
catalysis, material chemistry, computational chemistry, chemical biology and
reflects its comprehensive and multidisciplinary property.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Fundamental
Chemical Engineering
|
2
|
C
|
|
The
course is for the fundamental education of chemical engineering, including
the various chemical engineering unit operation and theory of the transition
process and reaction engineering. The main contents are as follows: 1, Fluid
flowing and transportation, pump calculations. 2 Heat transition and heat
exchanger, calculation and unit operation. 3 Mass transition and Fick Laws. 4
Distillation theory and calaulations of the distillation tower. 5 Basis of
the chemical reaction engineering theory. 6 The distribution of staying time
in the reacter and Measurement of the chemical reaction dynamics.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Fundamental
Experiment of Chemical Engineering
|
1
|
C
|
|
The
course is for the fundamental experiment education of chemical engineering,
including the various chemical engineering unit operation and theory of the
transition process and reaction engineering. The main experimentsare as follows:
1, Test of the resistance of the fluid flowing. 2 Test of the heat
transition. 3 Test of the distillation with the distillation tower. 4
Measurement of the distribution of staying time in the reacter. 5 Measurement
of the chemical reaction dynamics. 6 Test of nano-filtering of water.
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