Modul name

Engineering Physics

Level module

6 (undergraduate)

Abbreviation of applicable

SIP 612101

Sub-heading, if applicable

Courses included in the module, if applicable

Semester

1

Person in charge

Ir. Amril Ma’ruf Siregar, S.T., M.T.

Lecturer

1.     Hasti Riakara Husni, S.T., M.T.

2.     Riki Chandra Wijaya, SPd., M.T.

3.     Ir. Andius Dasa Putra, S.T, M.T, Ph.D

4.     Tiara S, S.T., M.T.

5.     Ahmad Dzakwan, S.Si

Language

Bahasa Indonesia, English

Classifications within the curriculum

Compulsory/ elective course

Teaching (hours per week during the semester

2 class hour lecture (2 ´ 170 minutes lecture) ´ 16 weeks

= 5,440 minutes

= 90.67 hours

Workload per semester

340 minutes lecture is divided into 100 minutes face to face interaction, 120 minutes structural activities and 120 minutes independent study

Credit points

2 SKS (3.63 ECTS)    ---> 1 ECT = 25 hours

Learning goals/competencies

C01

Capable to design and apply innovative construction, eco-friendly, low-cost, adaptive to climate change (7a-M)

A02

Fulfilling task with moral, ethics and manner (2-S)

A03

Capable to be part of team work and showing social awareness (4a-W)

A04

Being eager to be independent (4b-S)

P05

Mastering tools and software, collecting information, and applicable procedure that has been determined (7b-M)

C06

Capable to fulfil task as technician, analyst, and engineer with low-cost approach, emphasizing in coastal building and infrastructure that adaptive to climate change (8-S)

C07

Knowledgeable and skillful to fullfil the requirements of applicable standard incorporating factual and specific expertise emphasizing in coastal building and infrastructure that adaptive to climate change; hence having competencies to complete task properly and thoroughly (9-S).

A08

Responsible and enable to fulfil task holistically (10-S)

A09

Have a willingness to learn throughout lifetime (11-S)

Note: C: cognitive; A: affective; P: psychomotor

Couse Learning Outcomes

Being able to

1.      Describe measurements and units, as well as calculating measurement and unit conversion (C2;2-C3;16)

2.      Describe the definition of force, direction, change in force, as well as resultant force (C2;2)

3.      Calculate force, direction and rate of change in force, and resultant force (C3;16)

4.      Analyze the momentum and impulse caused by force, inertia force, as well as identifying variant of forces and describing Newton Laws (C4;1)

5.      Describe and to calculate dynamics of motions, velocity, acceleration, frictional effect on motion and its application in civil engineering. (C2;2-C3;11)

6.      Describe parabolic motion, circular motion and and being able to analyze centrifugal and centripetal motion(C2;2-C4;1)

7.      Analyze the center of gravity of a structure, equilibrium of an object in flat surfaces and incline surfaces (C4;1)

Being able to apply physics in civil engineering with an emphasis on case  studies of climate change and coastal conditions (C2;17-P2;9)

Content

A.      Lecturing

1.      Introduction to Engineering Physics

2.      Units of measure

3.      Force (physic)

4.      Probability and Statistics

5.      Newton Law

6.      Motion Dynamics

B.      Practical work

Study/ exam achievement

Assessment Aspect (%)

C1

A2

A3

A4

P5

C6

C7

A8

A9

Final test (30%)- written test

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Mid test (30%)- written test

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Quiz 1 : Presentation Test (20%)

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Assignment 1 (10%)

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Assignment 2 (10%)

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Ö

Score index

A

A ³76

B+

71 £ B+ < 76

B

66 £ B < 71

C+

61 £ C+< 66

C

56 £ C < 61

D

50 £ D < 56

E

E < 50

Forms of media

Software

Hardware

Ms. Office (PPT, Ms Word, Ms. Excel)

Computer and Projector