Module Handbook-Mathematics-Universitas Brawijaya Module Handbook
Module Name: Software for Mathematics
Module Level: Bachelor
Abbreviation, if Applicable: MAM62305 Sub-Heading, if Applicable: -
Courses included in the module, if applicable
Software for Mathematics Semester/term: 2nd/ 1st year
Module Coordinator(s): Ummu Habibah, S.Si,M.Si,Ph.D Lecturer(s) Zuraidah Fitriah, S.Si., M. Si
Dr. Isnani Darti, S.Si., M. Si Nur Shofianah, S.Si., M.Si., Ph.D
Language Bahasa Indonesia
Classification within the
curriculum Elective Studies
Teaching format / class hours per week during semester:
100 minutes lectures and 170 minutes laboratory activities per week.
Workload: Total workload is 4.5 ECTS, which consists of 1.67 hours lectures, 2 hours structured activities, 2 hours independent learning, 2.83 hours practice in laboratory, 16 week per semester, and a total 113.33 hours per semester including mid exam and final exam.
Credit Points: 3
Requirements according to the examination
regulations:
Students have attendance at least 80% on Software for
Mathematics class and registered as examinees in the academic information system.
Recommended prerequisties
Students have taken Programming Algorithm course (MAM61301) and have participated in the final examination of the course.
Learning
goals/competencies or
Module objectives/intended learning outcomes
After completing this course the student should have:
CLO1: know windows and workspace of Maple and Matlab, understand construction and execution Maple and Matlab commands.
CLO2: understand in using Maple and Matlab expression to solve Calculus and linear algebra operations.
CLO3: understand to plot 2 and 3-dimensional function graphic and plot simple animation using Maple and Matlab.
CLO4: be able to differentiate and construct Matlab script and function.
CLO5: understand algorithm using looping and conditional structure and be able to construct the Matlab code.
Content: Topics:
1. Maple introduction: windows, maple organizing, construction and execution commands, number computations, expressions, function notations, differential, integral, limit, matrices,
eigenvalue and eigenvector, linear equation system, 2 and 3- dimensional function graphic, animation, programming 2. Matlab workspace
Module Handbook-Mathematics-Universitas Brawijaya 3. Matlab basic operators: variables and mathematical operations,
input and output coding, general mathematical function, array and matrices operations
4. Directory and file management, script and m-file function 5. Program controlling, 2 and 3-dimensional function plotting.
6. Constructing Matlab code using looping and conditional structure
Attribut Soft Skill Discipline, honesty, cooperation and communication Study / exam achevements: The final mark will be weighted as follows:
No. Assessment methods (component, activities). Weight
1. Assignment 15 %
2. Laboratory Activities 15 %
3. Quiz 20 %
4. Mid examination 25 %
5. Final examination 25 %
Final grades is defined as follow: A : 80 < Final Mark ≤ 100 B+ : 75 < Final Mark ≤ 80
B : 69 < Final Mark ≤ 75
C+ : 60 < Final Mark ≤ 69
C : 55 < Final Mark ≤ 60
D+ : 50 < Final Mark ≤ 55
D : 44 < Final Mark ≤ 50
E : 0 ≤ Final Mark ≤ 44
Forms of Media Slides and LCD projectors, laptop/computer, whiteboards, Maple, Matlab.
Learning Methods Lecture, discussion and laboratory activities
Literatures 1. B.D. Hahn, D.T. Valentine, Essential MATLAB for Engineers and Scientists (4th Edition), Elsevier, 2010
2. M.L. Abell dan P. Braselton, Maple by example, 3rd edition, Academic Press, 2005
3. D.B. Meade, S.J.M. May, C-K. Cheung dan G.E. Keough, Getting Started with Maple, 3rd edition, Wiley, 2009 Notes:
