Module Handbook-Mathematics-Universitas Brawijaya

Module Handbook

Module Name: Basic Programming

Module Level: Bachelor

Abbreviation, if Applicable: MAM62301 Sub-Heading, if Applicable: -

Courses included in the module, if applicable

Basic Programming Semester/term: 2^nd/ 1^st year

Module Coordinator(s): Chair of the Lab. Applied Analysis and Numerical Computation Lectures(s) Zuraidah Fitriah, S.Si., M.Si.

Indah Yanti, S.Si., M.Si.

Ummu Habibah, S.Si., M.Si., Ph.D.

Syaiful Anam, S.Si., M.T., Ph.D.

Language Bahasa Indonesia

Classification within the curriculum

Compulsory Course 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 136 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 Basic Programming class and registered as examinees in the academic information system.

Recommended prerequisites

- Module objectives/intended learning outcomes

After completing this course the student should have

CLO 1 : ability to contruct algorithm, flowchart, pseudocode and C++ code using array 1 and 2 dimension to solve mathematical problems.

CLO 2 : ability to use sub-program/function in constructing algorithm, flowchart, pseudocode and C++ code.

CLO 3 : ability to use string operation in constructing algorithm, flowchart, pseudocode and C++ code.

CLO 4 : ability to use struct in constructing algorithm, flowchart, pseudocode and C++ code.

Content: Topics:

1) 1-dimensional array type.

2) 2-dimensional array type.

3) Subprogram/functions.

Module Handbook-Mathematics-Universitas Brawijaya 4) String Operations.

5) Struct.

Soft Skill Attribute Discipline, honesty, cooperation and communication.

Study / exam achievements:

The final mark will be weighted as follows:

No. Assessment methods (component, activities). Weight 1. Assignment 15 %

2. Laboratory activities 20 % 3. Quiz 15 %

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.

Literature 1) Herbert Schildt, The Complete Reference C++, Fourth Edition, McGraw-Hill/Osborne.

2) Ceruzzi, Paul E., 2003, A History of Modern Computing, The MIT Press, Cambridge Massachusetts, London, England.

3) Online Reading, www://cplusplus.com.

Notes: