Module designation

Numerical Methods (MAT201)

Semester(s) in which the module is taught

4th

Person responsible for the module

Drs. Edi Winarko, M.Cs.

Language

Indonesian

Relation to curriculum

Compulsory / elective / specialisation

Teaching methods

Lecture and lesson.

Workload (incl. contact hours, self-study hours)

3×170 minutes (3×50 minutes lecture and lesson, 3×60 minutes structural activities, 3×60 minutes self-study) per week for 16 weeks

Credit points

3 CP (4,8 ECTS)

Required and recommended prerequisites for joining the module

–   Algorithms and Programming (MAT101)-   Advanced Calculus (MAA105)

Module objectives/intended learning outcomes

General Competence (Knowledge):

  Capable can solve problems real problems faced by choosing the most appropriate method precisely using numerical methods.

Specific Competence: student are

1.      Able to understand Numbers and Errors2.      Able to solve equations Non-Linear numerically3.      Able to solve Simultaneous Equations numerically4.      Able to approach functions with Interpolation5.      Able to solve derivative problems with Numerical Differentiation6.      Able to solve integral problems with Numerical Integration7.      Able to solve differential equation problems using numerical differentiation.

 

Content

Numbers and Errors, Solving Non-Linear Equations, Solving Simultaneous Equations, Interpolation, Numerical Differentiation, Numerical Integration and Solving Differential Equations.

Examination forms

Essay

Study and examination requirements

Students are considered to pass if they at least have got a final score 40 (D).

Final score is calculated as follows: 10% softskill+20% assignment + 20% Quiz + 25% midterm + 25% final exam.

 

Final index is defined as follow:

A

: 86 – 100

AB

: 78 – 85.99

B

: 70 – 77.99

BC

: 62 – 69.99

C

: 54 – 61.99

D

: 40 – 53.99

E

: 0 – 39.99

Reading list

1.      Patel, Vithal A., 1994, Numerical Analysis, Harcourt Brace College Publishers. United States of America.

2.      Scarborough, James B., 2001, Numerical Mathematical Analysis, Oxford & IBH Publisher, New Delhi.

3.      Chapra S.C., Canela R.P., 2006, Numerical Methods for Engineers, Fifth Edition, McGraw-Hill.

4.      Mathews, Fink, 2004, Numerical Methods Using Matlab, Person Education, Inc.

5.      Hoffman, Joe D, 1993, Numerical Methods for Engineers and Scientist, International Edition, McGraw-Hill.