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Lecturer(s)
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Hojka Přemysl, Ing.
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Hába Aleš, Ing. Ph.D.
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Kout Jan, doc. Ing. CSc.
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Course content
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Application of Newton's laws - rectilinear motion of the vehicle at a constant speed and acceleration. Linear movement of vehicles designed with basic sentences dynamics of motion of a particle. Analysis of practical cases uniformly accelerated rectilinear motion of the vehicle. Cases composite curvilinear motion - derivation trajectory. Free undamped vibrations of a mechanical oscillator 1 degree of freedom. Free vibration mechanical oscillator of one degree of freedom damped viscous force. Forced oscillations (harmonic load) mechanical oscillator 1 ° of freedom damped viscous force. Practical application of contemporary movements in vehicles. Calculation of the mass inertia of the composite body to the specified axis. Analysis of practical cases uniformly accelerated rotational motion of rotating machines. Analysis of the effects of inertia of the rotating masses during movement of the vehicle. Practical examples shock bodies in conveying systems. Multibody dynamics with friction.
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing), Dialogic (discussion, interview, brainstorming), Skills training
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Learning outcomes
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The aim is thorough practice the principles of Newtonian mechanics - dynamics of practical examples related to the themes studied. Within the individual examples particular attention is paid to analysis for different terms of reference.
After completing the course the student is able to analyze the dynamics of practical problems related to the themes studied.
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Prerequisites
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A precondition for successful study is understanding and mastering the substance of previous articles, ie. Mechanics I and Kinematics.
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Assessment methods and criteria
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Work-related product analysis
Credit will be given for attendance at seminars and active participation of the student while practicing substances. The validity of credit is not transferred to the next academic year. Recognition of credit may in exceptional cases permit instructor. Exam is determined in accordance with the Study and Examination Regulations.
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Recommended literature
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Dedouch, Karel. Mechanika III : sbírka příkladů. Praha: Vydavatelství ČVUT, 2000. ISBN 80-01-02199-8.
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Stejskal, Vladimír. Mechanika III. Praha: Vydavatelství ČVUT, 1993. ISBN 80-01-00918-1.
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