Information Package / Course Catalogue - Adnan Menderes University

General Information Unit Staff Academic Information Programme Outcomes Course Structure Diagram Contact Information

Person Responsible for Information Package

Prof. Ahmet OKUMUŞ

Prof. Yelda EMEK

Assoc. Prof. Emre SEVİNDİK

Lec. Çiğdem YAMANER

Lec. Evrim ELÇİN

Lec. Ferhat KİREMİT

Lec. Murat Kemal AVCI

Lec. Zehra Burcu BAKIR

Lec. Zühal GÜNDÜZ

Engineering Mechanics

Course Code	: BSM105
Course Type	: Required
Couse Group	: First Cycle (Bachelor's Degree)
Education Language	: Turkish
Work Placement	: N/A

Theory	: 2
Prt.	: 0
Credit	: 2
Lab	: 0
ECTS	: 3

Objectives of the Course

To build a foundation of analytical capability for the solution of an engineering problems. In this class, students study general subjects of Statics first then Dynamics to maintain the general view of mechanics subjects and all information was used for design purposes.

Course Content

• Force Systems: Force, Moment, Couple, and Resultants. • Equilibrium: Mechanical System Isolation and Equilibrium Conditions • Structures: Plane Trusses, Method of Joints, and Method of Sections • Distributed Forces: Center of Mass, Centroids of Lines, Areas, and Volumes • Friction: Types of Friction, Dry Friction • Kinematics of Particles: Rectilinear motion, Plane curvilinear motion, Rectangular Coordinates, Normal and Tangential Coordinates, Relative motion (Translating axes), Constrained Motion of Connected Particles. • Kinetics of Particles: Force, Mass, and Acceleration, Newton’s Second Law, Rectilinear Motion, Plane Curvilinear Motion, Work and Energy, Center of Mass, Impulse and Momentum, Impact. • Kinetics of Systems of Particles.

Name of Lecturer(s)

Prof. İbrahim YALÇIN

Learning Outcomes

1.	Ability to use Vectors for solving of static problems.
2.	To make calculation of force, moment and equilibrium for mechanical systems
3.	To make statical and dynamical calculation for rigid bodies in agricultural systems for desing purposes.
4.	To be able to solve engineering problems in agricultural engineering and agricultural machinery
5.	To be able to calculate shear force and bending moment

Recommended or Required Reading

1.	J.L. Meriam, L:G: Kraige “ Engineering Mechanics: STATICS” (1998
2.	J.L. Meriam, L:G: Kraige “ Engineering Mechanics: DYNAMICS” (1998

Weekly Detailed Course Contents

Week 1 - Theoretical

Introduction to Vectors

Week 2 - Theoretical

Vectors and vectoral calculation

Week 3 - Theoretical

Force Systems: Force, Moment, Couple, and Resultants

Week 4 - Theoretical

Equilibrium: Mechanical System Isolation

Week 5 - Theoretical

Equilibrium: Equilibrium Conditions

Week 6 - Theoretical

Structures: Plane Trusses

Week 7 - Theoretical

Truss systems; Node point method (Midterm Exam)

Week 8 - Theoretical

Structures: Method of Sections

Week 9 - Theoretical

Distributed Forces: Center of Mass, Centroids of Lines, Areas, and Volume

Week 10 - Theoretical

Distributed Forces: Center of Mass, Centroids of Lines, Areas, and Volume

Week 11 - Theoretical

Friction: Types of Friction, Dry Friction

Week 12 - Theoretical

Kinematics of Particles: Relative motion (Translating axes), Constrained Motion of Connected Particles.

Week 13 - Theoretical

Kinetics of Particles: Force, Mass, and Acceleration, Newton’s Second Law

Week 14 - Theoretical