University:

Email Address:

Phone Number:

Log Out View Passbook

Solid State Fundamentals for Engineering Engineering & Social Sciences Program Spring 2023 Semester - Madrid

Flight Credit Get a Flight Credit worth up to $350 when you apply with code* by May 6, 2024

Get Your Code
BACK TO COURSE LISTINGS

Solid State Fundamentals for Engineering

Solid State Fundamentals for Engineering Course Overview

OVERVIEW

CEA CAPA Partner Institution: Universidad Carlos III de Madrid
Location: Madrid, Spain
Primary Subject Area: Mechanical Engineering
Instruction in: English
Course Code: 18311
Transcript Source: Partner Institution
Course Details: Level 200
Recommended Semester Credits: 3
Contact Hours: 42
Prerequisites: It is expected the students have taken the following courses in Engineering Physics: Physics I and II, Calculus I and II, Linear Algebra, Chemistry I and II, Probability and Statistic, Materials science and engineering, Differential equations, Quantum Physics, Mechanics and relativity, Complex variables and transforms.

DESCRIPTION

1.BONDING IN SOLIDS
1.1 General considerations
1.2 Ionic bonds
1.3 Covalent bonds
1.4 Van der Waals bonds
1.5 Metallic bonds
1.6 Hydrogen bonds

2. LATTICE VIBRATIONS. PHONONS- HEAT CAPACITY
2 1 Introduction
2.2 Interaction of atoms in the crystal
2.3 Vibrations of an one dimensional monoatomic chain
2.4 Vibration of an one dimensional diatomic chain
2.5 Three-dimensional lattice
2.6 Phonons
2.7 Heat capacity

3.THE THEORY OF FREE ELECTRONS IN METALS
3.1 Classical theory of metals: The Drude model
3.2 Electrical and thermal conductivity in metals
3.3 Quantum theory of metals: The Sommerfeld model
3.4 Work function
3.5 Thermionic emission
3.6 Photoelectric effect

4.THE BAND THEORY OF SOLIDS
4.1 Introduction: Band theory
4.2 Bloch theorem
4.3 The Kronig-Penny model
4.4 Some remarks about the Bloch theorem
4.5 Electrons affective mass
4.6 Metals and insulators
4.7 Holes and electrons

5.SEMICONDUCTORS
5.1 Introduction
5.2 Band Gap
5.3 Pure or intrinsic semiconductors
5.4 Extrinsic semiconductors
5.5 P-n junctions
5.6 Diodes, Transistors: Bipolar junctions transistor

6. DIELECTRIC MATERIALS
6.1 Introduction
6.2 Dielectric materials
6.3 Mechanisms of polarization
6.4 The complex dielectric constant. Frequency response
6.5 Piezoelectricity
6.6 Ferroelectricity

7.MAGNETIC MATERIALS
7.1 Introduction
7.2 Microscopic overview
7.3 Diamagnetism
7.4 Paramagnetism
7.5 Ferromagnetism and antiferromagnetism
7.6 Magnetic resonance

8.OPTICAL PROPERTIES OF MATERIALS
8,1 Basic concepts
8.2 Optical properties of metals
8.3 Optical properties of non-metals
8.4 Applications of optical phenomena

9. SUPERCONDUCTIVITY
9.1 Overview
9.2 Electrical rsistivity
9.3 The effects of a magnetic field
9.4 Microscopic theory
9.5 High Tc superconductors
9.6 Applications

Receive a $350 Flight Credit when you apply by May 06, 2024

Get your flight credit code and access to Passbook in two easy steps. With Passbook, you can track your favorite programs and courses, save flight credits, and watch videos on the destination you're interested in.

Apply Now

Step 1 of 2

Next Step

Step 2 of 2

Submit

Back

*By providing your mobile number, you agree to receive recurring text messages from CEA CAPA Education Abroad notifying you of important program deadlines. Message and data rates may apply.

Privacy Policy   |   Mobile Terms   |   Flight Credit Rules

Your flight credit has been added to your Passbook. Apply now or view your Passbook to begin the next step in your journey.

Passbook Apply Now

Speak with an
Admissions Advisor

Schedule an appointment to speak with a study abroad expert.

Book Appointment
LET'S CHAT