

Course Information
Course Unit Title 
: 
Introduction to Classical Mechanics 
Course Unit Code 
: 
01FEN5106 
Type of Course Unit 
: 
Optional 
Level of Course Unit

: 
Second Cycle 
Year of Study

: 
Preb 
Semester

: 
255.Semester 
Number of ECTS Credits Allocated

: 
6,00 
Name of Lecturer(s) 
: 


Course Assistants 
: 

Learning Outcomes of The Course Unit 
: 
1) To learn mathematical techniques to solve mechanic problems bye using scalar functions. 2) To learn some mathematical techniques like matrix algebra and eigen value problems used in quantum mechanics. 3) To identify the classical mechanics equivalents of some abstract subjects studied in quantum mechanics. 4) to define a problem and propose a solution for it, and to solve the problem, evaluate the results and apply them if it is necessary in his/her areas of expertise

Mode of Delivery 
: 
FaceToFace

Prerequisities and Corequisities Courses 
: 
Unavailable

Recommended Optional Programme Components 
: 
Unavailable

Course Contents 
: 
Survey of Elementary Prenciples, Variational Principles and Lagrange Equations, Extension of Hamiltan?s Principle to Nonholonomic Systems, Central Force Problem, Central Force Problem, Kepler?s Problem, Kinematics of Rigid Body Motion, Kinematics of Rigid Body Motion, Euler? s Theorem on Motion of a Rigid Body, Rigid Body Equations of Motion, Solving Rigid Problems and Euler Equations of Motion, Oscilations, Formulation of the Problem, Free Vibrations of a Linear Triatomic Molecule, The Classical Mechanics of the Special Theory of Relativity, Forces in the Special RelativityTheory, Covariant Lagrange Formulations.

Languages of Instruction 
: 
TurkishEnglish

Course Goals 
: 
To obtain ability of solutions of mechanic problems to determine their static and dynamic situations of various systems.

Course Aims 
: 
To teach some mathematical tools and formulations which supply to solve mechanic problems with scalar functions

WorkPlacement 

Not Available


Recommended or Required Reading
Textbook

: 
Classical Mechanics, Herbert Goldstein, Charle Pool, 3 rd Edition, Jhon Safko, Addisom Wesley, 2001.

Additional Resources

: 
Klasik Mekanik, Herbert Goldstein Çeviri, Vural Cinemre, Çağlayan Basımevi, 1974.

Material Sharing
Documents

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Assignments

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Exams

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Additional Material

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Planned Learning Activities and Teaching Methods
Lectures, Practical Courses, Presentation, Seminar, Project, Laboratory Applications (if necessary)


ECTS / Table Of Workload (Number of ECTS credits allocated)
Student workload surveys utilized to determine ECTS credits.

Activity

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Course Duration (Excluding Exam Week)

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Presentation

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Lab Study

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Finals

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Workload Hour (30)

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Total Work Charge / Hour

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Course's ECTS Credit

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Assessment Methods and Criteria
Studies During Halfterm

: 

Visa

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Quiz

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Homework

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Attendance

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Application

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Lab

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Project

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Workshop

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Field study

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TOTAL

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The ratio of the term to success

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The ratio of final to success

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TOTAL

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Weekly Detailed Course Content
Week

Topics

1

Survey of Elementary Prenciples


Study Materials: Textbook

2

Variational Principles and Lagrange Equations


Study Materials: Textbook

3

Extension of Hamiltan?s Principle to Nonholonomic Systems


Study Materials: Textbook

4

Central Force Problem


Study Materials: Textbook

5

Kepler's Problem


Study Materials: Textbook

6

Kinematics of Rigid Body Motion, Euler? s Theorem on Motion of a Rigid Body,


Study Materials: Textbook

7

Euler? s Theorem on Motion of a Rigid Body


Study Materials: Textbook

8

Rigid Body Equations of Motion


Study Materials: Textbook

9

Solving Rigid Problems and Euler Equations of Motion


Study Materials: Textbook

10

Oscilations, Formulation of the Problem


Study Materials: Textbook

11

Free Vibrations of a Linear Triatomic Molecule


Study Materials: Textbook

12

The Classical Mechanics of the Special Theory of Relativity


Study Materials: Textbook

13

Forces in the Special RelativityTheory


Study Materials: Textbook

14

Covariant Lagrange Formulations.


Study Materials: Textbook

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