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Particular lectures contents

Number of hours

1.    Kinematics: two and three dimensional motions, relations between linear and angular 2.    Dynamics - equations of motions mass, forces, Newton laws, momentum 3.    Work and energy conservational forces, potential energy conservation of momentum, center of mass system 4.    Forces momentum, rotation, gyroscope 5.    Rotational energy, rigid body, gravity 6.    Mechanics of solid and fluid 7.    Oscillations, dumped oscillations, forced oscillations. 8.    Charges, electrical field, potential, dipole. 9.    Capacitors, energy of electrical field, dielektrics, piezo and ferroelectrics. 10.    Electrical current, metals, resistor Kirchhoffs laws. 11.    Magnetic Induction moving point charge in magnetic field 12.    Magnetic field of currents, Biot-Savart law, Ampoer law 13.    Magnetization and magnetic susceptibility 14.    Induced Emf, Faraday’s law

• Classes - the contents: :the same as lectures

•    Seminars - the contents:

•    Laboratory - the contents:

•    Project - the contents:

•    Basic literaturę: Robert Resnick and David Holliday, Fizyka t. 1 i 2, PWN, 1999

•    Additional literaturę: Jay Orear, Fizyka t. 1 i 2, WNT, 2004

•    Conditions of the course acceptance/credition:

* - depending on a system of studies

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