Engineering Mechanics

Course Description

Rigid body statics: introduction, basic concepts principles. Equilibrium conditions and equilibrium equations. Basics of fiscal friction, types of friction, modeling of friction. Purpose and scope of the strength of materials, stress and strain analysis in axially loaded and bending bars and torsion of circular bars. The basic theory of kinematics and dynamics of mechanisms. Basics laws of motion for a system of particles, rigid body dynamics. Mechanical vibration. Lagrange's equations.

Learning Outcomes

  1. analyze the statics of rigid body
  2. apply the requirements of equilibrium
  3. analyze the stress and strain in axial loading, bending and torsion
  4. analyze the kinematics of particle and rigid body kinematics
  5. analyze the system of particles and rigid body dinamics
  6. analyze the mechanical vibration

Forms of Teaching

Lectures

Lectures

Exercises

Exercises

Week by Week Schedule

  1. Introduction to rigid body mechanics
  2. Velocity and acceleration
  3. General motion and reference frame
  4. Single-point dynamics
  5. Energy of rigid bodies
  6. Energy of rigid bodies
  7. Natural frequency
  8. Midterm exam
  9. Introduction to elasticity theory
  10. Stress and strain
  11. Deflection and stiffness of beams
  12. Safety factor, Fatigue failure, Cumulative fatigue damage
  13. Fracture mechanics
  14. Fracture mechanics
  15. Final exam

Study Programmes

University graduate
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Computational Modelling in Engineering (profile)
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Computer Science (profile)
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Control Systems and Robotics (profile)
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Data Science (profile)
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Electrical Power Engineering (profile)
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Electric Machines, Drives and Automation (profile)
Free Elective Courses (1. semester)
Electronic and Computer Engineering (profile)
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Electronics (profile)
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Software Engineering and Information Systems (profile)
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Literature

(.), Kevin Russell, Qiong Shen, Raj S. Sodhi, Kinematics and Dynamics of Mechanical Systems: Implementation in MATLAB and SimMechanics, CRC Press, 2019. (ISBN 978-1-4987-2493-7),
(.), T.L. Anderson, Fracture Mechanics: Fundamentals and Applications, Taylor and Francis, 2005. (ISBN 978-1-4200-5821-5),
(.), S. Ilijić, Mehanika - pojmovi, načela i odabrani primjeri, Udžbenik Sveučilišta u Zagrebu, FER, 2019. (ISBN 978-953-184-262-4),

For students

General

ID 222586
  Winter semester
5 ECTS
L3 English Level
L1 e-Learning
60 Lectures
13 Laboratory exercises

Grading System

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Acceptable