PH411E : Nuclear Physics II

Department

Department of

Academic Program

Bachelor in Physics

Type

Elective

Credits

02

Prerequisite

Overview

Introducing the student to the effect of radiation on living matter and methods of prevention to enable him to determine the types and quantities of radiation doses, developing the student's abilities in explaining the characteristics of spectral information. Introduce the student to the standard model of matter, the families of fermions and quarks, as well as the basic components of a nuclear reactor.

Intended learning outcomes

At the end of the course, the student should be able to:

1. Recognizes the effect of radiation on living matter.

2. Analyzes the nature of spectra and their relationship to numerical statistics.

3. Determines radiation doses and their different types.

4. Determines the impact of radiation on the environment and methods of prevention.

5. Distinguishes the standard model of matter, the families of fermions and quarks.

6. Describes the basic components of a nuclear reactor.

7. Compares the types of nuclear reactors.

8. Employs his knowledge of the effect of radiation in his career.

9. Uses modern technology means of computer and net and others.

10. Communicates with colleagues and work as a team to solve problems.

Teaching and learning methods

· Lectures.

· Research.

· Tutorial.

Methods of assessments

The methods of evaluating students in this course are distributed as follows:

o Semester work (40 marks) is divided as follows:

· First written exam (objective questions and problem) (15 marks).

· Second written exam (objective questions and problem) (15 marks).

· Scientific activities (e.g. weekly tests, reports discussion) (10 marks) .

o Final: written exam (60 marks).

Course contents

Scientific subject

Week

Radiation doses: the effect of radiation on living matter, types of radiation exposure, radiation protection, storage of nuclear waste.

1-2

The nature of spectra and numerical statistics: characteristics of spectral information, statistical systems, calculation of false spread, temporal congruence.

3-4

First Exam

5

Nuclear reactors: basic components of a nuclear reactor, operation of reactors..

6-7

Isotopic and radiation techniques

8-9

Second Exam

10

Nuclear energy and its sources.

11-12

Standard form of matter, families of fermions and quarks.

13-14

Final Exam

15

References

Title

Publisher

Edition

Author

location

Rapporteur notes

-

Lecturer

Lecturer

Radiation physics (measurements and applications)

Arab Development Institute

1998

Mohamed Al-Doghma

College library

General Chemistry I (.CH101)
Fundamentals of Education (EPSY101)
General Mathematics 1 (MM111)
General Psychology (EPSY 100)
Introduction to Mechanics (PH101)
Heat and properties of matter (PH102)
Arabic language 1 (AR103)
Quranic Studies 1 (AR101)
Lab. Physics 1 (Mechanics, Heat and Properties of Matter) (PH106L)
Sound & Light (PH104)
General Electrical (PH103)
Arabic language 2 (AR104)
General Mathematics 2 (MM112)
General Teaching Methods (EPSY 201)
(EPSY 203)
Electricity and magnetism (PH205)
Mechanics I (PH203)
Mathematical Physics I (PH201)
Lab. Physics 2 (Electricity, Sound and Light) (PH207L)
Principles of statistics (ST100)
General English1 (EN100)
HOSTINGARABIC3 (AR105)
(EPSY 200)
Basics Of Curriculums (EPSY 202)
Research Methods (EPSY301)
Measurements and Evaluation (EPSY 302)
General English2 (EN101)
Computer 1 (CS100)
General chemistry II (CH102.)
Mathematical Physics Il (PH202)
Mechanics II (PH206)
Thermodynamics (PH204)
Electromagnetic theory (PH303)
Moderen (Atomic) Physics (PH307)
Electronics (PH302)
Quranic studies2 (AR102)
Lab. Physics 3 (AC circuits) (PH305L)
HOSTINGARABIC4 (AR106)
General chemistry II practical (CH102P.)
Computer 2 (CS101)
Teaching learning Aids (EPSY 303)
ٍSolid state physics I (PH405)
Nuclear Physics I (PH403)
Psychological Health (EPSY 401)
Advanced Lab (Electrons) (PH306L)
Physical Optics (PH304)
Mechanics III (PH301)
Advanced Lab. (Optics and Moderen Physics) (PH308L)
Quantum Mechanics (PH401)
Statistical Physics (PH402)
Advanced Lab. (Nuclear Physics) (PH404L)
Advanced Lab. (Solid-State Physics) (PH406L)
Teaching Practice (EPSY 402)
Solar Energy (PH409E)
Laser and Applications (PH410E)
Nuclear Physics II (PH411E)
ٍSolid state physics II (413E)