2.1a. Modul Handbook of B.Eng Civil Engineering
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Modul name |
Coastal Engineering |
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Level module |
6 (undergraduate) |
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Abbreviation of applicable |
SIP 616305 |
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Sub-heading, if applicable |
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Courses included in the module, if applicable |
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Semester |
II |
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Person in charge |
Ir. Ahmad Zakaria, MT., PhD |
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Lecturer |
1. Dr. Ir. Endro Prasetyo Wahono, M.Sc 2. Dr. H Ahmad Herison, ST., MT. 3. Subuh Tugiono, ST., MT. 4. Ir. Ahmad Zakaria, MT., PhD |
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Language |
Bahasa Indonesia, English |
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Classifications within the curriculum |
Compulsory/ |
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Teaching (hours per week during the semester |
3 class hour lecture (3´170 minutes lecture) ´ 16 weeks |
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Workload per semester |
510 minutes lecture is divided into 150 minutes face to face interaction, 180 minutes structural activities and 180 minutes independent study |
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Credit points |
3 SKS (4.68 ECTS) |
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Learning goals/competencies |
A01 |
Fulfilling task with moral, ethics and manner (2-S)
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A02 |
Capable to be part of team work and showing social awareness (4a-S) |
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A03 |
Being eager to be independent (4b-S) |
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P04 |
Mastering tools and software, collecting information, and applicable procedure that has been determined (7b-S) |
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C05 |
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) |
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C06 |
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). |
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A07 |
Responsible and enable to fulfil task holistically (10-S) |
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A08 |
Have a willingness to learn throughout lifetime (11-S) |
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Course Learning Outcomes |
Being able to: 1. Describe strain, stress-strain relationship, and modulus of elasticity in the form of diagram (C2;2). 2. Describe stress on parallel beams (C2;2) 3. Calculate and to draw bending stress, shear stress, and connection between horizontal shear stress and vertical shear stress in the form of diagram (C2;8-C4;14-P4;3). 4. Calculate and make a diagram of stress on composite beams and stress combination (C2;8-C4;14-P4;3) 5. Calculate deflection of beams, moment of inertia, buckling, and torsion/radial stress (C2;8) 6. Calculate and analyze combination of stress, normal stress, Mohr circle and Kern on stress plane with the emphasis in civil engineering cases (C2;8 – C4;1). |
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Note: C: cognitive; A: affective; P: psychomotor |
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Content |
A. Lecturing 1. Introduction to mechanical properties 2. Strain 3. Moment inertia 4. Flexural stress 5. Torsion stress 6. Shear stress 7. Combination of stress |
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B. Practical work Analysis of various mechanicals properties of structures. |
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Study/ exam achievement |
Assessment Aspect (%) |
C5 |
A1 |
A2 |
A3 |
P4 |
C6 |
A7 |
A8 |
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Mid test (25%)- written test |
Ö |
Ö |
Ö |
Ö |
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Ö |
Ö |
Ö |
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Final test (25%)- written test |
Ö |
Ö |
Ö |
Ö |
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Ö |
Ö |
Ö
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Quiz 1 (15%) |
Ö |
Ö |
Ö |
Ö |
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Ö |
Ö |
Ö |
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Quiz 2 (15%) |
Ö |
Ö |
Ö |
Ö |
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Ö |
Ö |
Ö |
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Final task (20%) |
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Ö |
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Score index |
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A |
A ³76 |
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B+ |
71 £ B+ < 76 |
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B |
66 £ B < 71 |
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C+ |
61 £ C+< 66 |
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C |
56 £ C < 61 |
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D |
50 £ D < 56 |
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E |
E < 50 |
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A |
A ³ 80 |
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Forms of media |
Software |
Hardware |
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Ms. Office (PPT, Ms Word, Ms. Excel) |
Projector |
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LCD |
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Laptop, computer |
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