1. SylabUZ
2. Faculty of Mechanical Engineering
3. winter term 2023/2024
4. WM - oferta ERASMUS - Erasmus programme
5. Industrial Mechanics

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Industrial Mechanics - course description

Aim of the course

The aim of the course is to familiarize students problem-solving methodology based on the laws of mechanics and the knowledge and ability to solve complex problems of statics and kinematics.

Prerequisites

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Knowledge of mathematics and physics

Scope

LECTURE

The basic notions and the principles of statics. Force vectors. Equilibrium of a particle. Force system resultants. Equilibrium of a rigid body. Structural analysis (solution methods for simple trusses, frames and machines. Friction and friction laws. Center of gravity and centroid of a body. Theorems of Pappus and Guldinus. Basic notions of kinematics. The kinematics of point (description of movement of a point, velocity and acceleration, average and instantaneous velocity, average and instantaneous acceleration, straight motion, curvilinear and circular, tangential and normal acceleration).

CLASS

Solving classes based on lectures and source materials

LABORATORY

Laboratory topics:

• Determination of the static coefficient of friction,
• Determination of the characteristics and spring stiffness,
• Stroboscopic method of measuring the frequency of periodic motion,
• Determination of the mass moment of inertia of a rigid body,
• Measurement of the bearing friction torque of the electric motor rotor,
• Determination of the kinetic coefficient of friction by means of self-excited vibration ,
• Determination of the characteristics and stability of springs,
• Correction exercises, tests.

Teaching methods

Lectures with audiovisual aids. Solving classes. Working with the book. Group work in laboratory classes

Learning outcomes and methods of theirs verification

Outcome description	Outcome symbols	Methods of verification	The class form

Assignment conditions

Lecture

positive evaluation of the test

Class

positive evaluation of the test

Laboratory

received positive ratings of reports carried out laboratory

 

Evaluation of the course is getting positive ratings from all forms: Lecture, Class, Laboratory

The final grade received by the student is the arithmetic mean of the above grades.

Recommended reading

Gross D., ·Hauger W.,  Schröder J.,·WWall W.A., Rajapakse N., Engineering Mechanics 1: Statics, Springer-Verlag Berlin Heidelberg, 2009.

Hibbeler R.C., Engineering Mechanics: Statics, Pearson Prentice Hall, Pearson Education, Inc., New Jersey, 2013.

Cicci D.A., Fundamentals of Engineering Mechanics: Basic Concepts in: Statics, Mechanics of Materials, Dynamics. Dynamic Solutions, 2019.

Gallavotti G., The Elements of Mechanics, Springer-Verlag, 2007.

Walicki E., Smak T., Falicki J., Mechanika. Wprowadzenie teoretyczne do laboratorium. 2005, Oficyna Wydawnicza Uniwersytetu Zielonogórskiego.

Walicki E., Smak T., Falicki J., Mechanika. Materiały pomocnicze do ćwiczeń laboratoryjnych. 2005, Oficyna Wydawnicza Uniwersytetu Zielonogórskiego.

Further reading

Leyko J., Zbiór zadań z mechaniki ogólnej. t. I, 1978 PWN wydanie IV.

Misiak J., Zadania z mechaniki ogólnej. Statyka, 1994 WNT wydanie V.

Misiak J., Zadania z mechaniki ogólnej. Kinematyka, 1994 WNT wydanie V.

Notes

Modified by dr inż. Paweł Jurczak (last modification: 31-05-2023 15:46)