PHYSICS OF MATTER MOD. I (Int)

Teaching in italian
PHYSICS OF MATTER MOD. I C.I.
Teaching
PHYSICS OF MATTER MOD. I (Int)
Subject area
FIS/03
Reference degree course
MATERIALS ENGINEERING AND NANOTECHNOLOGY
Course type
Master's Degree
Credits
6.0
Teaching hours
Frontal Hours: 0.0
Academic year
2017/2018
Year taught
2017/2018
Course year
1
Language
ENGLISH
Curriculum
PERCORSO COMUNE
Reference professor for teaching
ALFINITO ELEONORA

Teaching description

Sufficiency in calculus, probability theory, linear algebra, electromagnetism

This is a course in theory and models in physics of matter; it aims to furnish some basic knolwedge concerning quantum physics of atoms, molecules and solids. 

Learning Outcomes; after the course the student should be able to

*Solve basic problems in special relativity

*Solve basic problems in quantum mechanics

*Be able to recognize the validity range of classical mechanics and use, whenever necessary, the achivement of modern physics

test: .

Physics of matter I is only the first modulus of the complete course named Physics of matter.

There a single final exam which includes the contents of modulus I and modulus II

The exam consists of two cascaded parts:

the first part is written test (duration: two hours and a half); the student is asked to solve exercises ; it is aimed to verify to what extent the student has gained the ability to apply theory to solve simple case studies;

the second part  is an oral test  aimed to determine to what extent the student has gained an overall knowledge of the main topics of the course.

 

This is a course in theory and models in physics of matter; it aims to furnish some basic knolwedge concerning quantum physics of atoms, molecules and solids. 

Introduction: Physics and tecnology from the end of 1800 to today (3 hours).Mechanical and electromagnetic waves (2 hours).Special relativity (5 hours). Elements of probability and the Maxwell distribution (5 hours). The quantum nature of light (5 hours).  Atomic models and the matter wave (5 hours). Quantum mechanics in one dimension (12 hours). The angular momentum (5 hours). The hydrogen atom, eigenvalues and eigenfunctions (3hours). Quantum statistics (2 hours). Multielectron atoms (2hours). Introduction to molecules (5 hours).

[1] R. Eisberg, R, Resnick, “Quantum Physics”, J. Wiley and Sons.

[2] R.A. Serway, C. J. Moses, C. A. Mojer, “Modern Physics”, Saunders College

[3] M. Born, “Atomic Physics”, Dover Books on Physics

[4] R. Gautreau, W. Savin, “Schaum’s Theory and Problema in Modern Physics”