Faculty of Science

Model (No 12)

Course Specification : Quantum Mechanics

2010 - 2011

 
Farabi Quality Management of Education and Learning - 22/12/2024
University :Damietta University
Faculty :Faculty of Science
Department :
1- Course data :-
Code: 315ف
Course title: Quantum Mechanics
Year/Level: ثالثة فيزياء وعلوم حاسب
Program Title:
  • physics
Specialization:
Teaching Hours: Theoretical: 2Tutorial: 1Practical:
2- Course aims :-
  1. Have a good basic knowledge of structural and functional aspects of physical systems at many spatial scales, from single molecule to the whole system.
  2. Connect fundamental ideas about the physical behavior of matter and energy to system’s structure and function.
3- Course Learning Outcomes :-
4- Course contents :-
NoTopicsWeek
1Black Body – Sommerfeld theory – Failure of old Quantum Mechanics – Dualism – New Quantum Mechanics.
2Schrodinger equation – Postulates.
3Solution of Schrodinger equationStationary state – One dimensional problem
4Potential barrier of finite width – Tunnel Effect – Harmonic Oscillator.
5Three-dimensional problemsFree particle – particle in box – Motion in spherically symmetric field
6Angular MomentumOperators – Complete description of state – Quantum numbers
7Constants of motion – Schwartz inequality – Ehrenfests theorem – Probability current density.
8Approximation MethodsTime independent perturbation theory – Variational method.
9Revision

5- Teaching and learning methods :-
SMethod
Black Board

6- Teaching and learning methods of disables :-
  1. none

7- Student assessment :-
A. Timing
NoMethodWeek
1Oral Exam14
2Written exam15
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
1Modern Physics and Quantum mechanics, Anderson.E.E.

9- Matrix of knowledge and skills of the course
SContentStudy week
Black Body – Sommerfeld theory – Failure of old Quantum Mechanics – Dualism – New Quantum Mechanics.
Schrodinger equation – Postulates.
Solution of Schrodinger equationStationary state – One dimensional problem
Potential barrier of finite width – Tunnel Effect – Harmonic Oscillator.
Three-dimensional problemsFree particle – particle in box – Motion in spherically symmetric field
Angular MomentumOperators – Complete description of state – Quantum numbers
Constants of motion – Schwartz inequality – Ehrenfests theorem – Probability current density.
Approximation MethodsTime independent perturbation theory – Variational method.
Revision

Course Coordinator(s): -
  1. صلاح كامل محمد اللبنى
Head of department: -
صلاح كامل اللبنى