# DYNAMICS

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30 Οκτ 2013 (πριν από 4 χρόνια και 8 μήνες)

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1
Laboratory
Lesson and Practice
Weekly Practice Hours
27023-Ability of formulating and solve dynamics problems
using energy methods
15579-Ability of forming free body diagrams and being
able to solve for unknown forces and moments using
None
Teorik Dersler
0
DYNAMICS
Weekly Course Content
Week
SUBJECTS
Theoretical
Practice
None
3
Recommended Optional Programme Components
0
Weekly Course Hours (Theoretical)
2
Introduction - Principles of dynamics
Lesson and Practice
Prerequisities and co-requisities
3
Mechanical and Some Basic Concepts
Lesson and Practice
4
Mechanical and Some Basic Concepts (Continued)
Lesson and Practice
5
0
Lesson and Practice
6
Defining the movement
Lesson and Practice
7
Kinematics of Particles
Lesson and Practice
8
Special Movements of particles
Written exam
9
Kinematics of Rigid Bodies
Lesson and Practice
10
Midterm exam
Lesson and Practice
11
Kinematics of Rigid Bodies (Continued)
Lesson and Practice
12
Kinetics of particles
Lesson and Practice
13
Kinetics of Rigid Body
Lesson and Practice
14
The principle of work and energy
Lesson and Practice
15
Impulse and Momentum
Lesson and Practice
16
Formal Education
DYNAMICS
Course Name
Level of Course Unit
Number of ECTS Credits Allocated
4.00
Course Unit Code
3
Weekly Lab Hours
1. Beer, F.P. ve Johnston, E.R., 1989. Mühendisler için Mekanik – Dinamik, Ġstanbul, Birsen.
2. Hibbeler, R.C. ve Fan, S.C., 2006. Mühendislik Mekaniği – Dinamik, Ġstanbul, Literatür.
Internship Status
None
Objectives of the Course
To teach the basic principles of particle and rigid body kinematics and dynamics.
To give the ability to form dynamics related mathematical models of engineering mechanisms and
machines.
To give the abilities of calculating the motion that results due to applied forces and moments and
calculating the forces and moments that are necessary to result in prescribed motion characteristics
Learning Outcomes
15578-Having necessary knowledge on the basics of particle and rigid body kinematics
Vibrations
Written exam
Course Content
MM2090
Education Language
Turkish
Name of Lecturer(s)
Yrd. Doç. Dr. Ġlhami YĠĞĠT
Education System
Course Year
2
Type of Course Unit
Compulsory
15580-Ability of formulating and solve engineering problems using their kinematics and kinetics
knowledge
29117-Having necessary knowledge on the basics of particle and rigid body kinematics
Course Semester
Kinematics of a Particle. Kinetics of a Particle of the point; Force and acceleration, the kinetics of particle,
work and energy, the particles
Kinetics of the point; Impulse and Momentum, a rigid planar object Movement Kinematics, Kinetics of a
Rigid Body Movement Plane;
PO 1
PO 2
PO 3
PO 4
PO 5
PO 6
PO 7
PO 8
PO 9
PO 10
PO 11
5
5
3
5
5
5
5
5
4
5
5
4
5
5
4
Very Low
2
3
4
5
Sum
Midterm Examination
1
2
2
Activities
1
2
2
Attending Lectures
14
2
28
Final Examination
14
Self Study
14
2
28
28
Individual Study for Final Examination
1
7
7
2
*Impurity Level:
Low
Middle
High
ECTS of Course Credit = Sum Work Load (hours) / ( 30 hours/ ECTS) =124 / 30 =4.14 =4
Very High
1
3
4
Learning Outcomes
100
Mid-term Activities
Number of
Percentage of contribution,%
Assessment
Number of
Final Activities
Number of
Midterm Examination
1
100
Calculation of Workload Within Learnining, Teaching and Assessment Effects
Time (hours)
(hours)
Sum
100
Final Examination
1
100
Percentage of contribution,%
5
Course Learning Outcomes
1
2
Sum
Program and Learning Outcomes Relations
10
100
Individual Study for Homework Problems
Individual Study for Mid term Examination
Homework
14
10
124
1
40
60
Contribution of Final Examination to Success Grade
Problem Solving
14
5
1
5
Contribution of Term (Year) Learning Activities to Success Grade
1