Course Unit Code | Course Unit Title | Type of Course | Year | Semester | ECTS |

HRT323 | Engineering Mechanics | 927006 | 3 | 5 | 4 |

Level of Course Unit

First Cycle

Objectives of the Course

Basic information about the basic concepts of mechanics and vectors, methods and practices to determine the solution to the problems öğretmek.Statik, teach center of gravity and moment of inertia about an account. Friction and found the method of virtual work. Introduction to strength, basic concepts, internal forces, external force, stress, stress safety and the safety coefficient, thermal stress, thermal stress of composite blocks, found the effect of self-weight deformation

Name of Lecturer(s)

Doç. Dr. Zihni Zerin

Learning Outcomes

- Center of gravity, moment of inertia can be calculated.
- Knows the principles of mechanics of force and moment.
- Know basic definitions of strength and calculate force, external force, stress, safety stress.
- He/She is familiar with shear and shear stress concepts.

Mode of Delivery

Formal Education

Prerequisites and co-requisities

None

Recommended Optional Programme Components

None

Recommended or Required Reading

1.OMURTAG H.M. Mühendisler için Mekanik-Statik, Birsen Yayınevi, 2009

2.Omurtag H. M.,Mukavemet, Cilt 1, Birsen Yayınevi, 2007

3.Omurtag H. M.,Mukavemet Çözümlü Problemler, Cilt 1,2008

4.Mechanics of Materials, F. P. Beer and E. R. Johnston, Mc-Graw Hill Comp., England.

2.Omurtag H. M.,Mukavemet, Cilt 1, Birsen Yayınevi, 2007

3.Omurtag H. M.,Mukavemet Çözümlü Problemler, Cilt 1,2008

4.Mechanics of Materials, F. P. Beer and E. R. Johnston, Mc-Graw Hill Comp., England.

Planned Learning Activities and Teaching Methods

Language of Instruction

Turkish

Work Placement(s)

None

Course Contents

Principles of statics, force vector, moment, equilibrium of particle and rigid body, equilibrium of forces in plane and space, supports and support reactions, structures, friction, center of gravity. Principles of dynamics, kinematics and kinetics of particles, definition of the problem in various coordinate systems, general motion, absolute and relative motion, work and energy, impulse and momentum, impact

Weekly Detailed Course Contents

Week | Theoretical | Practice | Laboratory |

1. | General principles. Force vectors: Vector operations. | ||

2. | The particle balance: the balance of Coplanar systems. | ||

3. | The balance of the three-dimensional systems. Resultant of force system: Torque, Moment of a couple. | ||

4. | The resultant force and moment of force-couple system. | ||

5. | Distributed forces: Equilibrium of rigid bodies: Equivalent systems of forces in solids. | ||

6. | Structural Analysis of trusses, frames and machines. | ||

7. | Internal forces: the internal forces in structural elements. Friction. Centroid and center of gravity. Moment of inertia. Method of virtual work. | ||

8. | Introduction to strength, basic concepts, internal forces, external force, stress, stress safety and the safety coefficient, thermal stress, thermal stress of composite rods | ||

9. | The effect of self-weight deformation, equal-strength rods, pressure vessels occurring stresses, one-and two-axis strain transformations, | ||

10. | Example problem solving | ||

11. | Mid-term exam | ||

12. | Mohr's circle, principal stresses, Hooke's law, the general state of the vertical beams loaded normal and shear stresses | ||

13. | Various profile sections, normal and shear stresses,The importance of cross-sectional determination of shear stress, principal stresses in bending | ||

14. | Torsion of shafts, columns theory, through thick and thin columns, united states of strength. | ||

15. | |||

16. |

Assessment Methods and Criteria

Term (or Year) Learning Activities | Quantity | Weight (%) |

Midterm Examination | 1 | 100 |

SUM | 100 | |

End Of Term (or Year) Learning Activities | Quantity | Weight (%) |

Final Examination | 1 | 100 |

SUM | 100 | |

Term (or Year) Learning Activities | 40 | |

End Of Term (or Year) Learning Activities | 60 | |

SUM | 100 |

Workload Calculation

Activities | Quantity | Time(hours) | Total Workload(hours) |

Midterm Examination | 1 | 2 | 2 |

Final Examination | 1 | 2 | 2 |

Attending Lectures | 13 | 2 | 26 |

Individual Study for Mid term Examination | 13 | 4 | 52 |

Individual Study for Final Examination | 6 | 3 | 18 |

SUM | 100 |