|NAME OF COURSE/MODULE:||ATOMIC AND MOLECULAR PHYSICS|
|COURSE CODE:||SFG 3033|
|NAME(S) OF ACADEMIC STAFF:||PROF.DR.KARSONO BIN AHMAD DASUKI|
|RATIONALE FOR THE INCLUSION OF THE COURSE/MODULE IN THE PROGRAMME:||This subject is the extension of knowledge that the students acquired when they studied Quantum Mechanics. This course is meant to elaborate and expose students to quantum theory. Emphasis is given to understand the principle structure of atoms and molecules, it interactions with fields. The discussion include electronic transitions, atomic spectra, excitation state ,hydrogen, and atom with multiple electrons.|
|SEMESTER AND YEAR OFFERED:||SEM 2 / YEAR 3|
|TOTAL STUDENT LEARNING TIME (SLT)||FACE TO FACE||TOTAL GUIDED AND INDEPENDENT LEARNING|
|L = Lecture
T = Tutorial
P = Practical
L + T + P + O = 120 HOURS
|PREREQUISITE (IF ANY):||NONE|
|OBJECTIVES:||1. To expand students exposure on Quantum Mechanics based on the level of knowledge that the students acquired in year three, in particular focussed on the use of Schrödinger equations and other Methods in solving Atomic and Molecular problems.
2. To provide students the technique of understanding and solving problems relating to Atomic and Molecular.
|Upon successful completion of this course students should have the ability to:
1. Explain the essential concepts, principles and theories of Atoms and Molecules ( C2 – LO1 ).
2. Observe, predict, conduct and discuss results of scientific review in Areas of Atomic and Molecular Physics.. ( P1 – LO2 ).
3. Demonstrate ethical standards of values, ethics and professionalism related to Applied Physics in life. (LO6- A3) .
|TRANSFERABLE SKILLS:||Students should be able to develop problem solving skills through a process of lectures and tutorials.|
|TEACHING-LEARNING AND ASSESSMENT STRATEGY:||Teaching-learning strategy:
|This course will begin with the introduction of the principles of atomic structure and interactions between atoms and field. It includes electronic shift, atomic spectra, excited state, hydrogen and many electron atoms. At the end of teaching, this course will explain the bonding between atoms to molecules, the molecular degrees of freedom (electronic, vibration and rotation), consider the basic theory and molecular spectroscopy.|
|MODE OF DELIVERY:||Lectures and oral presentation|
|ASSESSMENT METHODS AND TYPES:|
|A. Continuous Assessment (60%)|
· One Assignment Based on Aqli-Naqli Integration – Atomic and Molecular Physics. Based on Quranic Verses .
· Mid-Term Test
· Class Dialogue .
|B. Final Examination (40%)|
|Examination||40%||· Structured and essay type questions|
|MAIN REFERENCES SUPPORTING THE COURSE||Robert Eisberg and Robert Resnick (1985).Quantum Physics of Atoms,Molecules,Solids,Nuclei and Particles. John Wiley and Sons|
|ADDITIONAL REFERENCES SUPPORTING THE COURSE||1. B.H.Bransden and C.J.Joachain((2002).Physics of Atoms and Molecules. Prentice Hall.
2. Demtroder, W. 2005. An Introduction to Atomic and Molecular Physics. Springer.
3. Arimondo, E., Berman, P. R. and Lin, C. C. 2007. Advances in Atomic, Molecular, and Optical Physics, Volume 55. Academic Press.
4. Sinha, C. and Bhattacharyya, S. 2006. Current Topics in Atomic, Molecular and Optical Physics. World Scientific Publishing Company.
5. Sakir Erkoc and Turgay Uzer (1996).Atomic and Molecular Physics. World scientific
SFG 3033 | MOLECULAR AND ATOMIC PHYSICS webmaster .