Course Module

Department of Agricultural Engineering Faculty of Agricultural Technology Universitas Brawijaya

Module name Physics

Module level Undergraduate program

Code TPE4131

Subtitle -

Courses -

Semester(s) 1 Person

responsible for the module

Angky Wahyu Putranto, STP, MP

Lecturer 1. Angky Wahyu Putranto, STP, MP 2. Aulia Nur Mustaqiman, STP, M.Sc.

3. Darmanto, ST, MT 4. Joko Prasetyo, STP, M.Si.

5. Retno Damayanti, STP, MP 6. Ubaidillah, STP, M.Si.

Language Bahasa Indonesia, English Relation to

curriculum

Compulsory/elective Type of

teaching, contact hours

Contact hours and class size separately for each teaching method: lecture, lesson, practical, project, seminar etc.

Workload 181.33 hours/semester

Lecture, Exercise, Laboratory session, and private study Credit points 4 SKS / 6.80 ECTS

Requirements according to the

examination regulations

-

Recommende d

prerequisites -

Module objectives/int

ILO-1: An ability to use engineering principles in designing technology products related to the field of agricultural engineering science

ended learning outcomes

Objectives: This course provides a basic understanding of the various basic principles of physics and their role in everyday life, especially in the field of agricultural technology. This course covers the following materials: dimensions and units; scalar and vector quantities (vector algebraic operations); mechanics (statics, kinematics, dynamics); fluid physics (hydrostatic pressure, Archimedes principle, Bernoulli's law); thermal physics (laws of thermodynamics, sensible heat, latent heat, phase change); wave physics (wave mechanics, wave propagation); electricity and magnetism.

Knowledge: familiarity with the concepts of dimensions and units; scalar and vector quantities (vector algebraic operations); mechanics (statics, kinematics, dynamics); fluid physics (hydrostatic pressure, Archimedes principle, Bernoulli's law); thermal physics (laws of thermodynamics, sensible heat, latent heat, phase change); wave physics (wave mechanics, wave propagation); electricity and magnetism.

Skills: cognitive – Apply basic understanding of the various basic principles of physics in the field of agricultural technology. Phsycomotoric - practical abilities to analyze mechanics (statics, kinematics, dynamics); fluid physics (hydrostatic pressure, Archimedes principle, Bernoulli's law); thermal physics (laws of thermodynamics, sensible heat, latent heat, phase change); wave physics (wave mechanics, wave propagation); electricity and magnetism Competences: Student able to evaluate principles of physics in the field of

agricultural technology Content Courses:

1) Quantity and Unit

2) Scalar and Vector Quantities 3) Firmness Mechanics 1 (Kinematics) 4) Firmness Mechanics 2 (Dynamics 1) 5) Firmness Mechanics 3 (Dynamics 2) 6) Firmness Mechanics 3 (Dynamics 3)

7) Firmness Mechanics 4 (Gravity and Basis of Statics) 8) Fluid Mechanics 1 (Fluid Statics)

9) Fluid Mechanics 2 (Fluid Dynamics) 10) Thermal Physics 1

11) Thermal Physics 2 12) Thermal Physics 3

13) Wave Physics 1 (Wave Basics) 14) Wave Physics 2 (Acoustics) 15) Wave Physics 3 (Optics) 16) Electricity and Magnetism 1 17) Electricity and Magnetism 2 18) Electricity and Magnetism 3

Laboratory practice:

1) Pre test

2) Uncertainty of measurement and theory of errors 3) Addition of force vectors

4) Archimedes law

5) Coefficient of thermal expansion 6) Ohms law and Kirchoff's law 7) Post test

Study and examination requirements and forms of examination

1. Midterm exam 2. Final term exam 3. Assignment 4. Group assignment

5. Laboratory Practice Report 6. Laboratory Practice Final Exam How to score:

Midterm Exam(1-5) = 30%

Final Exam (1-4) = 30%

Assignment = 20%

Laboratory Practice (Report, Lab. Exam, Final Project) = 20%

A : 80 < Final Score ≤ 100 B+ : 75 < Final Score ≤ 80 B : 69 < Final Score ≤ 75 C+ : 60 < Final Score ≤ 69 C : 55 < Final Score ≤ 60 D : 50 < Final Score ≤ 55 D+ : 44 < Final Score ≤ 50 E : 0 < Final Score ≤ 44 Media

employed

Class, Online learning system (Zoom and Google Classroom), Laboratory Practice

Reading list 1) Halliday and Resnick. 2011. Fundamentals of Physics. 9th Edition. John Wiley and Sons.

2) Giancoli DC. 2005. Physics Principles with Applicaitions. 6th Ed. Pearson.

3) Serway RA and Jewett JW. 2008. Physics for Scientist and Engineers with Modern Physics. 7th Ed. Thomson Higher Education.

4) Fathuroya V, dkk. 2017. Fisika Dasar Untuk Ilmu Pangan.UB Press.