Physics 1
Code | Completion | Credits | Range |
---|---|---|---|
02F1 | Z,ZK | 6 | 3+3s |
- Lecturer:
- Tutor:
- Supervisor:
- Department of Physics
- Synopsis:
-
Velocity, acceleration. Newton's dynamics. Work, kinetic and potential energy. Many bodies and rigid body mechanics, rotational motion, laws of conservation. Elasticity. Fluids at rest and at motion. Gravitational field. Coulomb's law, intensity and potential of electric field. Conductors and dielectrics in electric field. Electric current and magnetic field. Conduction of electricity in metals, liquids and gases. Electromagnetic induction and eneregy. Maxwell's equations. Thermal expansion. Kinetic theory.
- Requirements:
- Syllabus of lectures:
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1. Displacement, velocity, acceleration. Motion in a gravitational field
2. Newton's laws. Motion in a non-inertial reference frame
3. Work, kinetic and potential energy, conservation of energy law
4. Conservation of linear and angular momentum law. Motion of a rigid body
5. Elasticity. . Fluids at rest and at motion
6. Newton's law of universal gravitation. Gravitational field
7. Coulomb's law. Intensity, work, potential. Gauss's law
8. Conductors and dielectrics in electric field. Capacitance. Energy storage
9. Electric current. Conservation of the electric charge law. Ohm's and Joule's law
10. Magnetic fields and forces. Magnetic media
11. Electromagnetic induction. Energy. Maxwell's equations
12. Conduction of electricity in metals, liquids and gases. Thermoelectricity
13. Ideal gas law. Thermal expansion. Conduction of heat
14. Kinetic theory of gases. Internal Energy. Equipartition of energy
- Syllabus of tutorials:
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1. Theory of errors. Measurement of the volume of solids
2. Problems: mechanics
3. Problems: mechanics. Measurement of the shear modulus, torsion of the thin-walled tube
4. Problems: elasticity. Measurement of the Young's modulus
5. Problems: torsion and reversible pendulum. Measurement of the acceleration due to gravity with reversible pendulum
6. Problems: fluids at rest and at motion. Gravitational field
7. Problems: electrostatics. Study of the distribution of electric field
8. Problems: electrostatics
9. Problems: electric current. Measurement of the ratio e/m
10. Problems: magnetic field
11. Problems: electromagnetic field
12. Conduction of electricity in liquids and gases. Meas. of the Faraday's constant
13. Problems: thermodynamics
14. Problems: kinetic theory of gases
- Study Objective:
- Study materials:
-
[1] Kubeš, P., Kyncl, Z.: Fyzika I. Skripta ČVUT, Praha 1996
[2] Pekárek, S., Murla, M.: Fyzika I - semináře. Skripta ČVUT, Praha 1997
[3] Bednařík, M., Jiříček, O., Koníček, P.: Fyzika I, II - lab. Cvičení. Skripta ČVUT, Praha 1997
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- ZB po rozdělení do oborů - Elektronika a sdělovací technika (compulsory course)
- ZB po rozdělení do oborů - Kybernetika a měření (compulsory course)
- ZB po rozdělení do oborů - Silnoproudá elektrotechnika (compulsory course)
- ZB po rozdělení do oborů - Výpočetní technika (compulsory course)
- Silnoproudá elektrotechnika-bakalářský blok (basic study course)
- Elektronika a sdělovací technika-bakalářský blok (basic study course)
- Kybernetika a měření-bakalářský blok (basic study course)
- Výpočetní technika-bakalářský blok (basic study course)
- Společný plán pro základní blok (compulsory course)
- Kybernetika a měření-bakalářský blok (basic study course)
- Silnoproudá elektrotechnika-bakalářský blok (basic study course)
- Výpočetní technika-bakalářský blok (basic study course)
- Elektronika a sdělovací technika-bakalářský blok (basic study course)