Educational guide School of Engineering |
english |
Bachelor's Degree in Computer engineering (2010) |
Subjects |
PHYSICS |
Learning outcomes |
IDENTIFYING DATA | 2023_24 |
Subject | PHYSICS | Code | 17234013 | |||||
Study programme |
|
Cycle | 1st | |||||
Descriptors | Credits | Type | Year | Period | ||||
6 | Basic Course | First | 1Q |
Competences | Learning outcomes | Contents |
Planning | Methodologies | Personalized attention |
Assessment | Sources of information | Recommendations |
Type A | Code | Learning outcomes |
A2 |
Measure physical magnitudes. Estimate the error in the results of measurements. Know and apply Coulomb's law. Understand the concept of electrical capacity. Knows how to apply the partnership laws of capacities. Analyse basic DC circuits. Know how to apply the laws of Kirchhoff and Thevenin and Norton theorems to analyze complex circuits. Analyse basic circuits in a permanent sinusoidal system. Understand the operation of basic electronic devices (diodes, LEDs and MOSFETs) Know how to analyse and design basic electronic circuits. Know, apply and design digital circuits such as logic gates or programmable digital circuits. | |
FB2 |
Understand the concepts of electric fields and electric potential. Analyse basic circuits in sinusoidal steady state. Know how to apply the partnership laws of capacities. Know how to apply Kirchhoff's laws and the theorems of Thevenin and Norton to analyze complex circuits Analyze basic circuits in a permanent sinusoidal system Understand the operation of basic electronic devices (diodes, LEDs and MOSFETs) Know how to analyze and design basic electronic circuits Know, apply and design digital circuits such as logic gates or programmable digital circuits Measure physical magnitudes. Estimate errors in measurement results Know and apply the Coulomb Law. Understand the concept of electric field and electric potential Learn about the concept of electrostatic energy Know the characteristics of the drivers Distinguishes a dielectric material from another conductor Understand the concept of electrical capacity Know the basic concepts of electrocinetics. Analyses basic circuits of DC. Know the elements of electrical circuits capable of temporarily storing energy. Understand the concept of electrical circuit transfer function and electrical resonance Know the characteristics of semiconductor materials. Understand the physical principle of electronic devices. | |
Type B | Code | Learning outcomes |
B2 |
Measure physical magnitudes. Estimate the error in the results of measurements. Know and apply Coulomb's law. Understand the concepts of electric fields and electric potential. Know the concept of electrostatic energy. Know the characteristics of conductors. Distinguish a dielectric material from another conductor. Know the operating characteristics of the main electronic power devices. Know how to apply the partnership laws of capacities. Know the basic concepts of electrokinetics. Know how to apply the laws of Kirchhoff and Thevenin and Norton theorems to analyze complex circuits. Understand the concepts of electric circuit transfer and electrical resonance function. Know the characteristics of semiconductor materials. Understand the physical principle of electronic devices. Know, apply and design digital circuits such as logic gates or programmable digital circuits. | |
Type C | Code | Learning outcomes |