Faculty of Science

Model (No 12)

Course Specification : Biophysics(1B

2006 - 2007

 
Farabi Quality Management of Education and Learning - 22/12/2024
University :Mansoura University
Faculty :Faculty of Science
Department :Physics Department
1- Course data :-
Code: 41402
Course title: Biophysics(1B
Year/Level: رابعة فيزياء حيوية
Program Title:
  • All Academic programmes
Specialization:
Teaching Hours: Theoretical: 4Tutorial: Practical:
2- Course aims :-
  1. Aims at introducing students to the basics and fundamentals of Molecular Spectroscopy including different types of spectroscopic analysis methods and applications.Understanding the interaction of E.M.Waves with matter.Comprehension of the mutual relation between.molecular spectrum and molecular structure. Application in our daily life (ex. microwave Oven) and other scientific fields (ex.Astronomy)
  2. Aims at introducing the students to the basics and fundamentals of biophysical radiations, including studying the different types of radiations and its effects on the biological systems. This study leads to find the qualitative and quantitative relations which describe these effects.
3- Course Learning Outcomes :-
4- Course contents :-
NoTopicsWeek
1Electronic Spectroscopy of Molecules
2Spin Resonance Spectroscopy, NMR Spectroscopy, MRI .
3 Matter,Energy and Radiation. Elementary Particles.Excitation & Ionization.
4Electromagnetic Waves. Quantum nature of energy exchange. Interaction of Radiation (charged particles) with matter. Energy loss by inelastic collision.
5Energy loss of fast electrons by radiation. X-ray spectra, Bremsstrahlung prodution.
6Dosimetry of Ionizing Radiation, Definitions, Calculationof Exposure Dose-Rates.
7Absorbed Dose from radioa isotopes within the body. MaximumPermissible Levels of Radiation Dose.
8Maximum Permissible Annual Intake. Maximum Permissible Concentration. Estimation of internal contamination.
9Biological effects of radiation. Effects of radiation on biological molecules.
10Revesion for all the course, Problems and excercises.
11Characterization of EMR&Quantization of energy levels,Spectral regions, Basics of practical spectroscopy. Microwave Spectroscopy,Rotational energy levels,Spectra of diatomic and polyatomic molecules.
12Microwave oven, Analysis by microwave spectroscopy, Techniques & loboratory Instrumentation. Infrared Spectroscopy,Vibrating diatomic molecules,Diatomic Vibrating-Rotator,an ex.. CO2 Spectrum.
13Breakdownof Born-Oppenheimer Approx Interaction Rotation-Vibration. Polyatomic molecules, Analysis by Infrared techniques.
14Raman Spectroscopy, Pure Rotational Raman Spectra, Vibrational Raman Spectra, Light Polarizn & Raman.
15Structural Determination by Raman & IR.

5- Teaching and learning methods :-
SMethod
Class lectures using board. Transparencies. Drawing structrures and using some pictures. resentation of some molecular spectrograms.
Lecture Presentation. Homework. Assignments.

6- Teaching and learning methods of disables :-
    No data found.

7- Student assessment :-
A. Timing
NoMethodWeek
B. Degree
NoMethodDegree
1Mid_term examination
2Final_term examination90
3Oral examination 10
4Practical examination
5Semester work
6Other types of asessment
Total100%

8- List of books and references
SItemType
1Fundamentals of Molecular Spectroscopy,Colin N.Banwell& Elaine M.McCash,McGraw-Hill
2Molecular Structure & Molecular Spectra, Vol.1,Spectra of diatomic molecules, G.Herzberg
3Radiation Biophysics, Howard L. Andrews
4Nuclear Raiation Physics, Lapp, R.E. and H. L. Andrew
5Egyptian Journal of Biophysics…..

9- Matrix of knowledge and skills of the course
SContentStudy week
Electronic Spectroscopy of Molecules
Spin Resonance Spectroscopy, NMR Spectroscopy, MRI .
Matter,Energy and Radiation. Elementary Particles.Excitation & Ionization.
Electromagnetic Waves. Quantum nature of energy exchange. Interaction of Radiation (charged particles) with matter. Energy loss by inelastic collision.
Energy loss of fast electrons by radiation. X-ray spectra, Bremsstrahlung prodution.
Dosimetry of Ionizing Radiation, Definitions, Calculationof Exposure Dose-Rates.
Absorbed Dose from radioa isotopes within the body. MaximumPermissible Levels of Radiation Dose.
Maximum Permissible Annual Intake. Maximum Permissible Concentration. Estimation of internal contamination.
Biological effects of radiation. Effects of radiation on biological molecules.
Revesion for all the course, Problems and excercises.
Characterization of EMR&Quantization of energy levels,Spectral regions, Basics of practical spectroscopy. Microwave Spectroscopy,Rotational energy levels,Spectra of diatomic and polyatomic molecules.
Microwave oven, Analysis by microwave spectroscopy, Techniques & loboratory Instrumentation. Infrared Spectroscopy,Vibrating diatomic molecules,Diatomic Vibrating-Rotator,an ex.. CO2 Spectrum.
Breakdownof Born-Oppenheimer Approx Interaction Rotation-Vibration. Polyatomic molecules, Analysis by Infrared techniques.
Raman Spectroscopy, Pure Rotational Raman Spectra, Vibrational Raman Spectra, Light Polarizn & Raman.
Structural Determination by Raman & IR.

Course Coordinator(s): -
  1. Mohamed Mohamed Mansour Gabr
Head of department: -