|
Course
Name
|
Credit
|
Type
of Course
|
|
Organic
Chemistry 2-1
|
2
|
C
|
|
The
objectives of course: Through the study of
"organic chemistry" course, the students can master the basic
concepts and basic theories of organic chemistry, the basic organic chemical
reaction types, the important reaction mechanism, the relationship between
structure and properties of organic compounds, and can apply the organic
chemistry knowledge to solve practical problems.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Inorganic
Chemistry Experiment 2-1
|
2
|
C
|
|
It
provides the students more opportunities of practical experiences and
improves their skills in the chemistry lab. The students receive the training
of basic technology and elementary operation for synthesis and characterization
of inorganic compounds.At the end of this class the students should be
familiar with synthetic techniques and characterization methods used in
inorganic chemistry, and also improve his laboratory record-keeping skills.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
General
Chemistry
|
3
|
C
|
|
“General
Chemistry”course as a whole includes four main parts, “General Chemistry” 2-1
courses including the first and second parts. The first part: the fundamental
principles of chemistry, main content: the electronic structure of the atoms,
chemical bonding and molecular structure, introduction of chemical
thermodynamics, chemical reaction rate and chemical equilibrium.The second
part: the chemical equilibrium theories of solution, the four titration
analysis experiments as the practical application of solution equilibrium
theory, main content: basic knowledge of quantitative chemical analysis,
acid-base balance and acid-base volumetric analysis, precipitation balance
and precipitation volumetric analysis, redox reaction and redox volumetric
analysis, basic coordination chemistry and coordination volumetric analysis.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Simulation
Practice
|
1
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Practice
of Production Management
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Comprehensive
Chemical Engineering Experiment(2)
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Green
Chemistry Technology
|
2.5
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Course
Design of Chemical Engineering Mass Transfer and Seperation Process
|
1
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Graduation
Thesis
|
8
|
C
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Speciality
Course Design
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Organic
Chemistry Experiment 2-1
|
2
|
C
|
|
This
course is an introduction to the theory and fundamental skill of organic
chemistry experiment. The course will mainly examine the following subjects:
(i) the Training and operate to use correct of instrument; (ii) a rigorous
scientism and a practical ability to problematic of experiment; (iii) be
practical and realistic in experiment; (iv) put on one's thinking cap; (v) Be
bold in putting things into practice and blazing new trails.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Organic
Chemistry Experiment 2-2
|
2
|
C
|
|
This
course is an introduction to the theory and fundamental skill of organic
chemistry experiment. The course will mainly examine the following subjects:
(i) the Training and operate to use correct of instrument; (ii) a rigorous
scientism and a practical ability to problematic of experiment; (iii) be
practical and realistic in experiment; (iv) put on one's thinking cap; (v) Be
bold in putting things into practice and blazing new trails.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Analytical
Chemistry Experiment
|
2
|
C
|
|
Analytical
Chemistry Experiments is the course for the practice and training of
experimental skills in quantitative analytical chemistry. The experiments are
separated to 4 parts: (1) acid-base titration; (2) complex formation
titration; (3) redox titration; (4) precipitation formation titration. Each
part contains several experiments. The students learn the essential skills
for all the titration analysis by doing these experiments.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Quantitative
Chemical Analysis
|
2
|
C
|
|
Qunatitative
Chemical Analysis is one of the four primary courses for students in
chemistry major or in other related major. The basic knowledge, theory and
typical analysis methods are introduced, which include data treatment,
acid-base titration, complex titration, redox titration and gravimetry. The
knowledge learned could be applied to solve the problem. The concept of
“quantitative” and the quality of research should be trained in the study
process and lay a good foundation for the following courses and the
scientific research in the future.
|
|
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
|
|
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
|
|
Structural
Chemistry
|
3
|
C
|
|
Structural
chemistry is one of those disciplines, which is essentially in all branches
in chemistry. Structural Chemistry studies the structures of atom, molecules
and crystals at atomic and molecular levels, and furthermore explores the
relationship between properties and structures.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Organic
Chemistry Experiment 2-2
|
2
|
C
|
|
This
course is an introduction to the theory and fundamental skill of organic
chemistry experiment. The course will mainly examine the following subjects:
(i) the Training and operate to use correct of instrument; (ii) a rigorous
scientism and a practical ability to problematic of experiment; (iii) be
practical and realistic in experiment; (iv) put on one's thinking cap; (v) Be
bold in putting things into practice and blazing new trails.
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Linear
Algebra
|
2
|
C
|
|
Linear
Algebra is the one of the fundamental part of the Advanced Engineering
Mathematics classes. It includes matrix, determinant, linear transforming and
linear maps, eigenvalue and eigenvector, quadratic forms and applications.
The class is for sophomore-level or junior/senior-level first course in
linear algebra and assumes calculus as a prerequisite.
|
|
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
|
|
Introduction
to Engineering Design
|
2
|
C
|
|
Taken
at Tianjin University
|
|
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
|
|
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
|
|
Fluid
Dynamics and Heat Transfer
|
3.5
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Understanding
Field Work
|
1
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Chemical
Engineering Thermodynamics
|
3
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Biochemistry
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Chemical
Engineering Mass Transfer and Seperation Process
|
3.5
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Introduction
to Management
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Chemical
Engineering Analysis and Synthesis
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Chemical
Process Control
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Molecular
Design and Product Engineering
|
2.5
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Chemical
Reaction Engineering
|
3.5
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Chemical
Separation Process
|
2.5
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Chemical
Engineering Safety and Environmental Protection
|
2
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Basic
Experiment of Chemical Engineering
|
1.5
|
C
|
|
Taken
at Tianjin University
|
|
Course
Name
|
Credit
|
Type
of Course
|
|
Basis
of Engineering Drawing 3
|
3.5
|
C
|
|
Taken
at Tianjin University
|
|
|
|
|
|
|
|
|
|
|
|
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