Faculty of Science

Model (No 12)

Course Specification : ضوء وحرارة - كهربية وخواص مادة

2010 - 2011

 
Farabi Quality Management of Education and Learning - 4/12/2024
University :Mansoura University
Faculty :Faculty of Science
Department :Physics Department
1- Course data :-
Code: 41104
Course title: ضوء وحرارة - كهربية وخواص مادة
Year/Level: أولى بيولوجى
Program Title:
  • B. Sc. Biophysics
Specialization:
Teaching Hours: Theoretical: 4Tutorial: Practical: 4
2- Course aims :-
  1. Introduce the basic concept of geometrical optics .
  2. Use the principles of reflection and refraction of light to study their applications.
  3. Outline the basic information of optical instrumentation and new fields
  4. Introducing the students the basics and fundamentals of heat and thermodynamics.
  5. Study the basic concept of the physical quantities and their units and dimensions.
  6. Acquire the student's skills to drive the applications of simple harmonic motion.
  7. Acquire the student's skills to derive the electric field and potential for charged objects.
  8. Outline the basic information of electric network circuits.
3- Course Learning Outcomes :-
4- Course contents :-
NoTopicsWeek
1Optics: Reflection and refraction of light at plane surface. Problem solving
2Refraction through prisms and dispersion, the electromagnetic spectrum
3Refraction through lenses. Problem solving.The eye and optical instruments
4Photometry and interference, diffraction and polarization of light, the laser. Problem solving
5Thermal Physics :Scales of temperature and thermometers
6Quantity of heat, heat and mechanical energy, heat capacity, measurement of heat.
7Thermal expansion, Linear expansion, Area expansion, Problem solving
8Volume expansion, Compressibility of fluids, Thermal expansion of water, Thermal stress
9Heat transfer, Conduction mechanism, Temperature distribution along a uniform bar and lagged bar
10Thermodynamics: Thermodynamics process, quasi-static process
11Thermodynamic work, First law of thermodynamics, Molar heat capacity of ideal gas
12Electricity and magnetism: Electric field- Electric flux - Electric potential
13Capacitance and Dielectrics - Electric current, Magnetic field - Faraday’s law
14Properties of matter: Physical quantity, units and dimension, Simple harmonic oscillations, Circular motion and Projectile motion
15Fluid dynamics and their application, stress and strain and tension, Elastic properties of materials and plastic deformation - problem solving

5- Teaching and learning methods :-
SMethod
Lectures using data show and board
Discussion sessions
Laboratory work
Problem classes and group tutorial.

6- Teaching and learning methods of disables :-
  1. The same as normal students, only skeletal disabilities are allowed in the Faculty of Science.

7- Student assessment :-
A. Timing
NoMethodWeek
1final exam14
2oral exam14
3Practical exam 13
B. Degree
NoMethodDegree
1Mid_term examination0
2Final_term examination70
3Oral examination 10
4Practical examination 20
5Semester work0
6Other types of asessment0
Total100%

8- List of books and references
SItemType
1Notes of (Optics- Heat-Properties of matte - Electricity and magnetism) prepared by the physics department.
2Physics for Scientists and Engineers Raymond A. Serway, John W. Jewett 6th Edition , 2004

9- Matrix of knowledge and skills of the course
SContentStudy week
Optics: Reflection and refraction of light at plane surface. Problem solving
Refraction through prisms and dispersion, the electromagnetic spectrum
Refraction through lenses. Problem solving.The eye and optical instruments
Photometry and interference, diffraction and polarization of light, the laser. Problem solving
Thermal Physics :Scales of temperature and thermometers
Quantity of heat, heat and mechanical energy, heat capacity, measurement of heat.
Thermal expansion, Linear expansion, Area expansion, Problem solving
Volume expansion, Compressibility of fluids, Thermal expansion of water, Thermal stress
Heat transfer, Conduction mechanism, Temperature distribution along a uniform bar and lagged bar
Thermodynamics: Thermodynamics process, quasi-static process
Thermodynamic work, First law of thermodynamics, Molar heat capacity of ideal gas
Electricity and magnetism: Electric field- Electric flux - Electric potential
Capacitance and Dielectrics - Electric current, Magnetic field - Faraday’s law
Properties of matter: Physical quantity, units and dimension, Simple harmonic oscillations, Circular motion and Projectile motion
Fluid dynamics and their application, stress and strain and tension, Elastic properties of materials and plastic deformation - problem solving

Course Coordinator(s): -
  1. Elmetwaly Mahmoud Adb Elrazq
Head of department: -
Mohamed Abd Elqader Hassan Madkor