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Information
| Unit | FACULTY OF ENGINEERING |
| BIOMEDICAL ENGINEERING PR. | |
| Code | BMM203 |
| Name | Engineering Mechanics |
| Term | 2019-2020 Academic Year |
| Semester | 3. Semester |
| Duration (T+A) | 4-0 (T-A) (17 Week) |
| ECTS | 5 ECTS |
| National Credit | 4 National Credit |
| Teaching Language | Türkçe |
| Level | Lisans Dersi |
| Type | Normal |
| Label | C Compulsory |
| Mode of study | Yüz Yüze Öğretim |
| Catalog Information Coordinator | Prof. Dr. ÇETİN CANPOLAT |
| Course Instructor |
Prof. Dr. ÇETİN CANPOLAT
(Güz)
(A Group)
(Ins. in Charge)
|
Course Goal / Objective
Introduction and importance of engineering mechanics. Learning the basic concepts used in static, strength of materials and dynamic. Analysis and solution of basic problems encountered in engineering mechanics. Simple approach to basic mechanical problems and their solutions in biomedical engineering.
Course Content
1. Introduction to Engineering Mechanics 2. Vector Operations 3. Force Systems 4. Equilibrium 5. Distributed Forces 6. Introduction to the Strength of Materials 7. Internal Forces 8. Bending and Torsion 9. Kinematics and Kinetics of a Particle 10. Kinematics of Rigid Bodies
Course Precondition
Resources
Notes
Course Learning Outcomes
| Order | Course Learning Outcomes |
|---|---|
| LO01 | Basic Principles of Mechanics. |
| LO02 | Vector Operations. |
| LO03 | Moments of a Force around a Point and an Axis. |
| LO04 | Pair of Forces, Equivalent Force Systems and Special Situations. |
| LO05 | Distributed Loads: geometric center and center of gravity. |
| LO06 | Equilibrium and Balance of Specific Conditions. |
| LO07 | Basic Principles of Strength of Materials |
| LO08 | Calculation of Internal forces |
| LO09 | Bending and Torsion |
| LO10 | Kinematics of Particle Systems. |
| LO11 | Force and Momentum for Particle Analysis. |
| LO12 | Energy and Momentum Methods of Particle Kinematics. |
| LO13 | Kinematics of Rigid Bodies. |
| LO14 | Energy and Momentum Methods for Rigid Bodies. |
Relation with Program Learning Outcome
| Order | Type | Program Learning Outcomes | Level |
|---|---|---|---|
| PLO01 | - | 1. Solve the scientific problems encountered in medicine and medical technologies by applying technical approaches of disciplines. 2. Self development on science and technology issues. 3. Assess the contributions of engineering solutions on medicine, medical technologies and healthcare | 3 |
| PLO02 | - | 1. Define the problems about Biomedical Engineering 2. Modelling the problems about Biomedical Engineering. | 4 |
| PLO03 | - | 1. Analyse data and interpret results | 4 |
| PLO04 | - | 1. Utilize modern techniques and computing tools which are essential for Engineering applications | 4 |
| PLO05 | - | 1. Design and analyse a defined process 2. Recognise national and international problems for Biomedical Engineering | 4 |
| PLO06 | - | Understand the research problems of medical doctor with engineering perspective | 5 |
| PLO07 | - | 1. Describe the ideas clearlywith written and verbally 2. Have the interdisciplinary teamwork skills | 5 |
| PLO08 | - | 1. Have knowledge on calibration and quality assurance systems in Biomedical Engineering 2. Have the sense of responsibility and professional ethics | 5 |
Week Plan
| Week | Topic | Preparation | Methods |
|---|---|---|---|
| 1 | Introduction to Engineering Mechanics | Reading lecture materials | |
| 2 | Vector Operations | Reading lecture materials | |
| 3 | Force Systems | Reading lecture materials | |
| 4 | Equilibrium | Reading lecture materials | |
| 5 | Distributed Forces | Reading lecture materials | |
| 6 | Distributed Forces | Reading lecture materials | |
| 7 | Introduction to the Strength of Materials | Reading lecture materials | |
| 8 | Mid-Term Exam | Reading lecture materials | |
| 9 | Internal Forces | Reading lecture materials | |
| 10 | Bending and Torsion | Reading lecture materials | |
| 11 | Bending and Torsion | Reading lecture materials | |
| 12 | Kinematics and Kinetics of a Particle | Reading lecture materials | |
| 13 | Kinematics and Kinetics of a Particle | Reading lecture materials | |
| 14 | Kinematics of Rigid Bodies | Reading lecture materials | |
| 15 | Final Exam | Reading lecture materials | |
| 16 | Term Exams | Reading lecture materials | |
| 17 | Term Exams | Reading lecture materials |
Assessment (Exam) Methods and Criteria
| Assessment Type | Midterm / Year Impact | End of Term / End of Year Impact |
|---|---|---|
| 1. Midterm Exam | 100 | 40 |
| General Assessment | ||
| Midterm / Year Total | 100 | 40 |
| 1. Final Exam | - | 60 |
| Grand Total | - | 100 |
Student Workload - ECTS
| Works | Number | Time (Hour) | Workload (Hour) |
|---|---|---|---|
| Course Related Works | |||
| Class Time (Exam weeks are excluded) | 14 | 4 | 56 |
| Out of Class Study (Preliminary Work, Practice) | 14 | 3 | 42 |
| Assesment Related Works | |||
| Homeworks, Projects, Others | 0 | 0 | 0 |
| Mid-term Exams (Written, Oral, etc.) | 1 | 8 | 8 |
| Final Exam | 1 | 16 | 16 |
| Total Workload (Hour) | 122 | ||
| Total Workload / 25 (h) | 4,88 | ||
| ECTS | 5 ECTS | ||