Subject: Mechanics 3 (06 - M201)


Basic Information

CategoryTheoretical-methodological
Scientific or art field:Mechanics
InterdisciplinaryNo
ECTS7
Native organizations units

Chair of Technical Mechanics
Course specification

Course is active from 06.10.2005..


Course which have preconditioned courses Mechanics 3

Course idMandatoryMandatory
Theory of Mechanisms and MachinesYesNo
Thermal Turbines 1YesNo
Biomechanics and mechanics of sportYesNo
Developing abstract intelligence for understanding dynamics and dynamical processes, as well as acquiring basic knowledge in dynamics as a fundamental field in mechanical engineering in everyday practice.
Acquired knowledge is used by students in further education, as well as in their own practice after graduating.
Laws on dynamics. Types of forces. Tasks of dynamics. Differential equations for point motion. First integrals. Impulse, work, power and potential force energy. General laws on point dynamics. Stability of balanced point position. Properties of point motion in the field of central force. Point motion in the field of gravity force. Relative point motion. Point motion on smooth, rotational and immovable surface in the field of Earth`s gravity. Point motion on a line. Dynamics of the material point systems. Force classification. Equations on motion. General laws on the material system dynamics. Dynamics of the changeable mass point. Mescherski equation. Tsiolkovsky equation. Dynamic system torsor. D`Alamber`s principle. Work of internal forces of a rigid body. Work of couplings and moment of force. Translatory body motion. Moment of inertia. Steiner theorem. Moment of inertia in relation to a random axis. Centrifugal moment of inertia. Ellipsoid of inertia. Main and main central axis of inertia. Body rotation around an immovable axis. Plain motion of a rigid body and the rigid body system. Body rotation around immovable point. Approximate gyroscope theorem. Real and virtual motion. Ideal connections. Lagrange-D`Alamber principle. Generated coordinates. Generated forces. Lagrange equations of the second type. Lagrange function. Cyclic coordinate. Stability of the relative system balance. Fundamentals in the impact theory for a material point. Impact of the material point systems. Lagrange equations of the second type in impact.
Lectures are auditory for all students, practice are held in smaller groups.
AuthorsNameYearPublisherLanguage
Božidar VujanovićDinamika1976Naučna knjiga, BeogradSerbian language
Đorđe Đukić, Teodor Atanacković, Livija CvetićaninMehanika2005Univerzitet u Novom SaduSerbian language
Course activity Pre-examination ObligationsNumber of points
Exercise attendanceYesYes15.00
Written part of the exam - tasks and theoryNoYes15.00
Coloquium examYesYes40.00
Lecture attendanceYesYes15.00
Oral part of the examNoYes15.00
Name and surnameForm of classes
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Cvetićanin Livija
Full Professor

Lectures
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Zuković Miodrag
Full Professor

Lectures
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Kovačić Ivana
Full Professor

Lectures
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Rakarić Zvonko
Associate Professor

Practical classes
Missing picture!

Cvetićanin Livija
Full Professor

Practical classes
Missing picture!

Kovačić Ivana
Full Professor

Practical classes
Missing picture!

Zuković Miodrag
Full Professor

Practical classes