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Lecturer(s)
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Karamazov Simeon, prof. Ing. Dr.
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Course content
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Object of physics. Physics disciplines. SI - system and its units. Scalar and vector quantities. Introduction into kinematics. Dynamics of mass point. Newton´s laws of motion. Momentum, impulse. Work, energy. Kinetic and potential energy. Universal law of gravitation. Gravitational field. Dynamics of system of particles. Torque (angular force). Centre of mass. Angular momentum of mass point and of solid body. Moment of inertia, calculation of. Kinetics energy of rigid bodies. Introduction to theory of elasticity. Hooke´s law. Introduction to electrostatics. Coulomb´s law. Electric field. Kapacity, capacitors. Energy of electrostatic field. Dipole. Introduction in electrokinetics. Ohm´s law. Work of electric current. Kirchhoff´s laws.
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing), Laboratory work
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Learning outcomes
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Subject acquaint students with the basics of general physics. Is focused on the mechanics of tangible item and rigid bodies, the basic knowledge of fluid mechanics, termiky and thermodynamics, optics, electricity and magnetism, and building an atom. In the seminars students solve problems associated with moving substance.
After graduating, the student will focus on basic classical physics.
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Prerequisites
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Mathematics I.
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Assessment methods and criteria
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Oral examination, Written examination
Credit conditions: two written work (examples), completion of laboratory exercises. Test is an oral.
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Recommended literature
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Cimpl. Z, Karamazov S. Fyzika I (první část), UPa- skripta. 1995.
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Halliday D., Rasnick R., Walker J. Fyzika, 2001, VUTIUM, Brno..
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Tulka J., Pirkl S. Výpočtové úlohy z fyziky II, Elektřina a magnetismus, 2001, Univerzita Pardubice.
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