كلية العلوم

نموذج رقم(12)

توصيف مقرر دراسي : فيزياء المفاعلات النظرية

2015 - 2016

 
الفارابى لإدارة جودة التعليم والتعلم - 4/12/2024
الجامعة :جامعة المنصورة
الكلية :كلية العلوم
القسم :الفيزياء
1- بيانات المقرر :-
الرمز الكودى: Phys615
اسم المقرر: فيزياء المفاعلات النظرية
الفرقة: درجة الماجستير فى العلوم / الفيزياء / الفيزياء النظرية
عنوان البرنامج:
  • الماجستير فى الفيزياء النظرية
التخصص:
عدد الساعات: نظري: 2فصل: 0عملى: 0
2- أهداف المقرر :-
  1. 1- Introduce the principles of Reactor Physics. 2- Study the transport equation and its solutions. 3- Enable the students to use diffusion equation and its solutions for some simple problems 4- Acquire the students skills to describe various analytical and semi-analytical methods used to predict neutron flux in a reactor. 5- Outline the basic information of the properties of critical systems. 6- Develop the problem of reactor kinetics and control.
3- نواتج التعلم المستهدفة للمقرر :-
4- محتويات المقرر :-
مالموضوعالأسبوع
1• The Neutron Transport Equation: Basic Definitions , Derivation, Transport equation for simple geometries , The Integral form of Transport Equation, Peierls equation, Approximations to Transport Equation, Constant cross-section approximation, Case's method, the spherical harmonics method, The Adjoint Operator, the adjoint transport equation .1
2• The Neutron Diffusion Equation: Diffusion Equation, Derivation, Initial, boundary and source conditions, Validity of the equation, Diffusion coefficient, Diffusion equation for simple geometries, one speed Diffusion coefficient, Neutron Diffusion in a Non-multiplying Medium, Infinite medium, Finite medium 2
3• Neutron Spectrum in the Energy Region above 1 eV: Neutron Spectrum in an Infinite Assembly, High energy region, Slowing down region, Neutron Spectra in a Finite Assembly, Effect of Inelastic Scattering on Neutron Spectrum4
4• Energy Spectrum of Thermal Neutrons: Thermal Spectrum in an Infinite Medium, The Maxwellian spectrum, Diffusion heating and cooling, Neutron Spectrum in an Ideal Proton Gas, Solution of Wigner-Wilkins equation for a weak 1/D-type absorber, Spectrum in a Heavy Gas, Integral form of the heavy gas equation, Generalized Heavy Gas Model, The Effective Temperature Model. 6

5- أساليب التعليم والتعلم :-
مالاسلوب
• Lectures using the normal teaching methods
• Discussion sessions and class activity
• Collecting data about scientific subject from internet
• Problem classes and group tutorial

6- أساليب التعليم والتعلم للطلاب ذوى القدرات المحدودة :-
  1. The same as normal students, only skeletal disabilities are allowed in the Faculty of Science.

7- تقويم الطلاب :-
أ- التوقيت
مالطريقةالأسبوع
1Final exam11
2Report9
3Quizzes6
ب- توزيع الدرجات
مالطريقةالدرجة
1امتحان نصف الترم10
2امتحان آخر الترم100
3الامتحان الشفوى10
4الامتحان العملى0
5أعمال الترم10
6طرق أخرى للتقييم0
المجموع100%

8- قائمة الكتب الدراسية والمراجع
مالعنصرالنوع
1Ashcroft and Mermin, Solid State Physics, 1976, (Textbook) 2- S. Wiggins, Introduction to Applied Nonlinear Dynamical Systems and Chaos (Springer {Verlag}, New York, 1990). 3- F. Verhulst, Nonlinear Di_erential Equations and Dynamical Systems (Springer-Verlag, Berlin, 1996).كتب ملزمة

9- مصفوفة المعارف والمهارات المستهدفة من المقرر الدراسي
مالمحتوىأسبوع الدراسة
• The Neutron Transport Equation: Basic Definitions , Derivation, Transport equation for simple geometries , The Integral form of Transport Equation, Peierls equation, Approximations to Transport Equation, Constant cross-section approximation, Case's method, the spherical harmonics method, The Adjoint Operator, the adjoint transport equation .1
• The Neutron Diffusion Equation: Diffusion Equation, Derivation, Initial, boundary and source conditions, Validity of the equation, Diffusion coefficient, Diffusion equation for simple geometries, one speed Diffusion coefficient, Neutron Diffusion in a Non-multiplying Medium, Infinite medium, Finite medium 2
• Neutron Spectrum in the Energy Region above 1 eV: Neutron Spectrum in an Infinite Assembly, High energy region, Slowing down region, Neutron Spectra in a Finite Assembly, Effect of Inelastic Scattering on Neutron Spectrum4
• Energy Spectrum of Thermal Neutrons: Thermal Spectrum in an Infinite Medium, The Maxwellian spectrum, Diffusion heating and cooling, Neutron Spectrum in an Ideal Proton Gas, Solution of Wigner-Wilkins equation for a weak 1/D-type absorber, Spectrum in a Heavy Gas, Integral form of the heavy gas equation, Generalized Heavy Gas Model, The Effective Temperature Model. 6

اساتذة المادة: -
  1. محمد صلاح السعيد ابراهيم
رئيس مجلس القسم العلمى: -
جمعه محمد ابراهيم الدمراوى