Educational guide School of Engineering |
english |
Bachelor's Degree in Electronic and Automation Engineering (2010) |
Subjects |
PHYSICS II |
Learning outcomes |
IDENTIFYING DATA | 2023_24 |
Subject | PHYSICS II | Code | 17204004 | |||||
Study programme |
|
Cycle | 1st | |||||
Descriptors | Credits | Type | Year | Period | ||||
6 | Basic Course | First | 1Q 2Q |
Competences | Learning outcomes | Contents |
Planning | Methodologies | Personalized attention |
Assessment | Sources of information | Recommendations |
Type A | Code | Learning outcomes |
A2 |
Know and apply Coulomb's law. Understand the concept of electrical capacity. Analyse basic DC circuits. Know how to apply the Biot-Savart law and Ampere's law. Understand the laws of geometric optics and their application. Know the laws of wave optics and the phenomena of interference and diffraction. | |
FB2 |
Understand and apply Coulomb's law. Understand the concepts of electric fields and electric potential. Understand the Gauss theorem. Know the concept of electrostatic energy. Know the characteristics of conductors. Understand the concept of electrical capacity. Distinguish a dielectric material from another conductor. Know the basic concepts of electrokinetics. Analyse basic DC circuits. Know the concept of magnetic fields. Understand the concept of magnetic forces. Know the magnetic moment of a coil. Know how to apply the Biot-Savart law and Ampere's law. Understand the concepts of magnetic induction, self-induction and mutual induction. Analyse basic circuits in sinusoidal steady state. Know the Maxwell equations in integral form as a summary of electromagnetic theory. Know the corpuscular and wave theories of light. Understand the laws of geometric optics and their application. Know the laws of wave optics and the phenomena of interference and diffraction. | |
Type B | Code | Learning outcomes |
B2 |
Know and apply Coulomb's law. Understand the concepts of electric fields and electric potential. Understand the Gauss theorem. Know the concept of electrostatic energy. Know the characteristics of conductors. Understand the concept of electrical capacity. Distinguish a dielectric material from another conductor. Know the basic concepts of electrokinetics. Know the concept of magnetic fields. Understand the concept of magnetic forces. Know the magnetic moment of a coil. Understand the concepts of magnetic induction, self-induction and mutual induction. Know the Maxwell equations in integral form as a summary of electromagnetic theory. Know the corpuscular and wave theories of light. Understand the laws of geometric optics and their application. Know the laws of wave optics and the phenomena of interference and diffraction. | |
Type C | Code | Learning outcomes |