Page 106 - Handbook Bachelor Degree of Science Academic Session 20202021
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Faculty of Science Handbook, Academic Session 2020/2021
SIN3013 Fourier and Wavelets Analysis SIN1001 and SIM2002 4
SIN3015 Mathematical Science Project SIM2002 4
(II) FACULTY ELECTIVE COURSES (7 CREDITS) [EF]
* Courses Offered by Other Institute/Department within the Faculty of Science
* Refer to the Faculty Elective Courses lists other than from the Institute of Mathematical Sciences but
within the Faculty of Science
Institute/Department Course Code Course Title Credits
SIX1006 Malaysian Flora 3
Institute of Biological Sciences SIX1007 Malaysian Fauna 3
SIX1008 Bio Computing 2
Department of Chemistry SIX1009 Basic Chemistry 2
Department of Geology SIX1010 Earth’s Ecosystem 2
Department of Physics SIX1011 Contemporary Physics 2
Department of Science and Technology
Studies SIX1012 Logical Thinking in Science 3
The exact number of elective courses offered in each year may differ. Core courses in Bachelor of Science in
Mathematics or Bachelor of Science in Statistics may also be taken as elective courses of department for this program.
Only SIQ2003 in Bachelor of Actuarial Science may be taken as an elective course of department for this program.
Please refer to the respective programs.
Attention:
1. Students who wish to specialize in Bachelor of Science in Applied Mathematics must take at least 20 credits from
courses with codes SIN3***/SIM3***/SIT3*** (except SIN3014) of which at least 12 credits must be from SIN3***.
2. Students who wish to take SIN3014 or SIN3015 must pass at least 80 credits of the listed mathematics courses.
PROGRAM GOAL
To produce graduates with a sound knowledge in applied mathematics, capable of analysing and
solving problems and thinking critically, able to adapt to diverse environment and contribute significantly
in various professions.
PROGRAM LEARNING OUTCOMES
At the end of the program, graduates with Bachelor of Science in Applied Mathematics are able to:
1. Explain the principles and concepts of mathematics and its applications;
2. Apply the mathematical principles in solving real world problems;
3. Conduct professional activities with good social skills and demonstrate a sense of responsibility;
4. Practice characteristics associated with professionalism and ethical responsibility in the field of
mathematical applications;
5. Communicate using critical thinking with effective, accurate and relevant concepts;
6. Convert problems into mathematical models, and develop scientific strategies to obtain solutions;
7. Engage in lifelong learning to advance knowledge and applications of mathematics;
8. Apply managerial and entrepreneurial skills to manage resources needed to complete a task.
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