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Lecturer(s)
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Hojka Přemysl, Ing.
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Kout Jan, doc. Ing. CSc.
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Hába Aleš, Ing. Ph.D.
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Course content
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Practical compensation cases strength and power pair only strength. Application of fundamental sentences plane statics solving equilibrium particle. Graphic solutions balance the body in the plane. Analytical solution of the balance of the body in a plane. Analytical solution of the balance of the body in space. Calculation of cg composite bodies. The calculation of the required size of the body for a given position of its center of gravity. Practical cases of continuous load beams. Internal investigation of the effects in the girders. The effects of friction in specific cases - fiber friction pivot friction. Conditions jams body when exposed to passive resistance. Rolling cylinder on a horizontal support - rolling static condition. Solving the balance of multibody systems by the method of virtual work.
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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 training of axioms, basic theorems of statics, static equivalence laws and static equilibrium of force systems to 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 practical problems associated with static themes studied.
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Prerequisites
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A precondition for successful study is understanding and mastering the substance of Mathematics I, Mathematics II and Physics I.
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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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Stejskal, Vladimír. Mechanika I. Praha: České vysoké učení technické, 1998. ISBN 80-01-01888-1.
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Stejskal.V., Březina, J., Knězů, J.:. Mechanika I. Řešené příklady. ČVUT Praha, 1999. ISBN 80-01-01694-1.
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