Mathematics IIA (for Natural Sciences and Engineering)
Course Code
MA1201
Number of Credits
4
Semester
Course Type
Related Courses
| No | Code | Course | Relation |
|---|---|---|---|
| 1 | MA1201 | Mathematics IIA | Equivalent |
| 2 | MA1201 | Mathematics IIA | Equivalent |
| 3 | MA1201 | Mathematics IIA | Equivalent |
| 4 | MA1201 | Mathematics IIA | Equivalent |
| 5 | MA1201 | Mathematics IIA | Equivalent |
| 6 | MA1201 | Mathematics IIA | Equivalent |
| 7 | MA1201 | Mathematics IIA | Equivalent |
| 8 | MA1201 | Mathematics IIA | Equivalent |
| 9 | MA1201 | Mathematics IIA | Equivalent |
| 10 | MA1201 | Mathematics IIA | Equivalent |
| 11 | MA1201 | Mathematics IIA | Equivalent |
| 12 | MA1201 | Mathematics IIA | Equivalent |
| 13 | MA1201 | Mathematics IIA | Equivalent |
| 14 | MA1201 | Mathematics IIA | Equivalent |
| 15 | MA1201 | Mathematics IIA | Equivalent |
| 16 | MA1201 | Mathematics IIA | Equivalent |
| 17 | MA1201 | Mathematics IIA | Equivalent |
| 18 | MA1201 | Mathematics IIA | Equivalent |
| 19 | MA1201 | Mathematics IIA | Equivalent |
| 20 | KU1011 | Indonesian Language: Scientific Writing | Equivalent |
Study Material
| Study Material | Depth |
|---|---|
| Integration Technique | Express |
| Indeterminate Forms and Integrals | Expert |
| Series | Expert |
| Cone Slices and Polar Coordinates | Expert |
| Geometry in the plane and in space | Expert |
| Derivative of Multivariable Functions | Expert |
| Integral Folding | Expert |
| Differential Equation | Expert |
Graduate Learning Outcomes (GLO) carried by the course
| CPMK Code | Course Learning Outcomes Elements (CLO) |
|---|---|
| CPMK 1 | To examine and explain the phenomenon of the change of a quantity, using various strategies and employing fundamental concepts of multivariable calculus—particularly derivatives (the concept of rate of change), integrals (the concept of accumulation of change), as well as series and differential equations. |
| CPMK 2 | To solve real-world problems in science and engineering using multivariable calculus and by utilizing technology as a supporting tool. |
| CPMK 3 | To use theorems in calculus to explain various real phenomena in science and engineering. |
| CPMK 4 | To construct coherent mathematical arguments in expressing ideas to convince others—whether orally or through various forms of presentation such as diagrams, tables, graphs, or written work—in one’s own words, including providing interpretations both within and beyond mathematical contexts. |
| CPMK 5 | To identify and interpret mathematical solutions back into their original context, fostering attitudes such as confidence, perseverance, openness, and others. |
Learning Method
- A combination of lectures and discussions, problem-based learning, individual assignments, regular joint quizzes, and cooperative learning
Learning Modality
- Offline/Hybrid
Assessment Methods
- UTS, UAS, assignments and individual quizzes