Introduction to the subject - a natural phenomenon and the physical quantity of physical quantities and their units, the role of mathematics in physics. Kinematics of motion of a particle - translational motion and rotation, physical quantities describing the translational motion (position vector and trajectory, velocity, acceleration), uniform movement and acceleration, rectilinear and curvilinear motion, motions in homogeneous gravity field of the Earth. The dynamics of motion of a particle - force as the cause of motion, Newton's laws of motion, their importance and basic applications, mechanical work and mechanical energy, conservation of energy and limits its validity. Mechanics of mass points, the law of conservation of momentum, the limits of validity of this law and its use. Mechanics of rigid bodies, moment of force, rotation of rigid body, characteristics and physical description, introduction of angular variables, moment of inertia of a rigid body and its calculation, solutions rotational motions, rolling motion. The basic physical laws of deformation of elastic bodies. Physical fields and their comparison. Gravitational field - the gravitational interaction, the gravitational force. Kepler and Newton, work done in the gravitational field, potential energy of the body in the gravitational field, the movements of bodies in gravitational fields and their solutions. Electric fields, electrical interactions, the intensity of the electric field, Coulomb's law, the movement of charged particles in an electric field, the work done in the electric fields, the potential of the electric field, voltage, electrical properties of materials, capacitors. Constant current - electric current as a natural phenomenon and as a physical quantity, origin of electric current, constant current in metals, Ohm's law, work and power of electric current, an electrical circuit.
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Monologic (reading, lecture, briefing), Dialogic (discussion, interview, brainstorming), Work with text (with textbook, with book)
- Contact teaching
- 65 hours per semester
- Home preparation for classes
- 20 hours per semester
- Preparation for a credit (assessment)
- 20 hours per semester
- Preparation for an exam
- 45 hours per semester
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Halliday D., Resnick R., Walker J. Fyzika. VUTIUM Brno, 2001.
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Sedlák, Bedřich. Elektřina a magnetismus. Praha: Academia, 2002. ISBN 80-200-1004-1.
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Zajíc Jan. Fyzika I, UPa,v elektronické podobě na STAGu.
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Zajíc, Jan. Fyzika II : (elektřina a magnetizmus). Pardubice: Univerzita Pardubice, 2004. ISBN 80-7194-641-9.
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Zajíc Jan. Sbírka příkladů pro předmět Fyzika I - v elektronické podobě na STAGu.
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