Faculty of Science

Model (No 12)

Course Specification : فيزياء حديثة - ديناميكا حرارية إحصائية-ميكانيكا كم

2008 - 2009

 
Farabi Quality Management of Education and Learning - 22/12/2024
University :Mansoura University
Faculty :Faculty of Science
Department :Physics Department
1- Course data :-
Code: 14302
Course title: فيزياء حديثة - ديناميكا حرارية إحصائية-ميكانيكا كم
Year/Level: ثالثة كيمياء وفيزياء
Program Title:
  • B. Sc. Physics & Chemistry
Specialization:
Teaching Hours: Theoretical: 6Tutorial: 4Practical:
2- Course aims :-
  1. Introduce the principles of quantum mechanics to the third year students.
  2. Study the equations of motion of particles
  3. Acquire the students skills to understanding of the world application of quantum mechanics.
  4. Enable the student to solve problems and obtaining the energy levels and eignfunctions of the particles quantum mechanically by using Schr?dinger equation
  5. Introduce the basic concepts of special theory of relativity
  6. Outline the basic concepts of Statistical thermodynamics .
  7. Study the concepts of different Statistical thermodynamics distributions.
3- Course Learning Outcomes :-
4- Course contents :-
NoTopicsWeek
1Ch. 1: Introduction Postulates of Q. M.,Schr?dinger Eq. in space and momentum coordinates
2Ch. 2: One-dimensional systems 2.1:-Bound states: infinite, finite, SHO and Morse potentials. Linear infinite potential using momentum space 2.2:-Unbound states: Free particle, potential step, tunneling effect and radioactive alpha decay- periodic potential
3Ch. 3: Three-dimensional systems 3.1:-Rectangular Coordinates: threedimensional box, three-dimensional harmonic oscillator and the degeneracy of their energy levels.
4Ch. 4: Angular momentum operators Basic properties, Cartesian components commutator relations, eigen values and eigen functions of the angular momentum operators eigen values and eigen functions of the ladder operators.
5Ch. 5: Approximation methods Time-independent perturbation theory for non-degenerate state (anharmonic oscillator and electric field perturbations).
6Special theory of relativity.
7Concept of wave and particle
8Introductory to Quantum mechanics
9Kinetic theory of an ideal gas
10The distribution of molecular velocities
11Transport phenomena
12The Maxwell- Boltzmann Statistics

5- Teaching and learning methods :-
SMethod
Lectures using data show and board
Problem classes and group tutorial.
Class activity.

6- Teaching and learning methods of disables :-
  1. لا يوجد

7- Student assessment :-
A. Timing
NoMethodWeek
1Final-Term Examination 14
2Oral Exam14
B. Degree
NoMethodDegree
1Mid_term examination0
2Final_term examination90
3Oral examination 10
4Practical examination 0
5Semester work0
6Other types of asessment0
Total100%

8- List of books and references
SItemType
1Lecture Notes
2Introductory Quantum Mechanics, R. L. Liboff Theoretical Phys., V3 Quantum Mech., B. G. Levich
3Quantum Mechanics, D. Rapp -
4Practical Quantum Mechanics, S. Flugge - Introductory Quantum Mechanics, C.Cohen-Tannoudji
5Introductory Quantum Mechanics, C.Cohen-Tannoudji

9- Matrix of knowledge and skills of the course
SContentStudy week
Ch. 1: Introduction Postulates of Q. M.,Schr?dinger Eq. in space and momentum coordinates
Ch. 2: One-dimensional systems 2.1:-Bound states: infinite, finite, SHO and Morse potentials. Linear infinite potential using momentum space 2.2:-Unbound states: Free particle, potential step, tunneling effect and radioactive alpha decay- periodic potential
Ch. 3: Three-dimensional systems 3.1:-Rectangular Coordinates: threedimensional box, three-dimensional harmonic oscillator and the degeneracy of their energy levels.
Ch. 4: Angular momentum operators Basic properties, Cartesian components commutator relations, eigen values and eigen functions of the angular momentum operators eigen values and eigen functions of the ladder operators.
Ch. 5: Approximation methods Time-independent perturbation theory for non-degenerate state (anharmonic oscillator and electric field perturbations).
Special theory of relativity.
Concept of wave and particle
Introductory to Quantum mechanics
Kinetic theory of an ideal gas
The distribution of molecular velocities
Transport phenomena
The Maxwell- Boltzmann Statistics

Course Coordinator(s): -
  1. Abd Elrazeq Awad Ali Deghedy
Head of department: -
Mohamed Abd Elqader Hassan Madkor