3. Intended Learning Outcomes of the course (ILOs):

(1)

Minia university Faculty of Engineering Dept. Of Mech. Power and Energy

COURSE SPECIFICATION

1. Administrative Information

Course Title :Physics (2)

Code : FS 114

Department offering the course : Mechanical power and Energy Program on which the course is given : Undergraduate level

Department offering the program : Mechanical power and Energy

Academic year :First year

Semester : First Semester

Date of specification/revision :2004 Date of approval by Departmental/Faculty :05/10/2020 Taught hours:

Lecture:4 hrs./week Tutorial:1 hrs./week Practical: 1hrs./week Others: None Total:6hrs./week

2. Overall Aims of the Course

This course is designed to:

• Teach the student to apply knowledge of physics in engineering problems solution.

• Prepare the students to integrate to adapt with new technological advancement.

3. Intended Learning Outcomes of the course (ILOs):

a- Knowledge and understanding (𝑨

_𝟏

, 𝑨

_𝟏𝟐

) Upon completing this course, the student should be able to:

𝑎

₁

-Define

terminologies such as, interference, polarity, and capacitance

𝑎

₂

-Explain

the concept of electrostatic field, oscillation circuits, electronic emission, particle accelerators, and x-rays physics

𝑎

₃

-Describe

physics of nuclear energy

𝑎

₄

-Explain

physics of ultrasonic waves and relevant theories

b- Intellectual Skills(𝑩

_𝟑

, 𝑩

_𝟏𝟎

)

Upon completing this course, the student should be able to:

b

₁-

Analyze

simple electric circuit and oscillation cycles

b

₂

-Assess

quantum mechanics stipulations.

b₃-

Develop

physical models for accelerators, absorbance, deviation, and dispersion of rays b₄-

Distinguish

spherical, orthogonal, and perspective radiation

c- Professional and practical skills (𝑪

_𝟏

)

Upon completing this course, the student should be able to:

𝑐₁-

Use

physics to analyze circuits and magnetic electrostatic.

𝑐₂-

Apply

concepts on microscopes.

𝑐₃-

Evaluate

mono-color devices, cameras, crystal structure applications.

𝑐₄-

Prepare

full physical analysis in a general application

d- General and transferable skills (𝑫

_𝟏

, 𝑫

_𝟐

) Upon completing this course, the student should be able to:

d

₁

- Communicate

effectively alone and within team.

d

₂

- Manage

time effectively

(2)

FS 114 Course Specification

2 4. Syllabus

Topics CONTENTS

Topic (1) Optical physics: Interference, Reflection–Electrostatic field – Displacement – Capacitance Topic (2) Magnetic electricity – Static magnetic field due to poles and steady current – Magnetic circuits

– Magnetic effect factor

Topic (3) Simple electrical circuits – Oscillation cycles

Topic (4) Modern physics: introduction – Electronic emission- Pohr theory – particles coupling –Analysis using X-Rays deviation technique and microscope

Topic (5) Electolight phenomenon – Quantum mechanics postulations – Periodic tables of substances – Natural radiation – Particles accelerators – Nuclear energy.

Topic (6) X-rays physics: Nature and light – absorption – exploring – deviation due to scattering – Devices (monocolor devices – Methods of deviation, ultrasonic waves and its applications Topic (7) Material science - Crystals system – Similarity degree and groups

Topic (8) Matrices coefficients – Spherical, orthogonal, and solid radiation- General applications

5. Teaching and Learning Methods:

5.1. Lectures.

5.2. Tutorial.

5.3. Discussion 5.4. Office hours.

5.5. Self-learning.

6. Students Assessment:

6.1. Students Assessment Methods:

6.1.1. Tutorial 6.1.2. Reports

6.1.3. Mid-term exams 6.1.4. Practical Exam 6.1.5. Written exam 6.2. Assessment schedule:

6.2.1. Tutorial

An assignment every two weeksaccording to the topic

6.2.2. Reports

Scheduled by the instructor

6.2.3. Mid-term exams

Week # 8 (1^stSemester)

6.2.4. Practical Exam

Week # 13 (1^stSemester)

6.2.5. Written exam

Scheduled by the faculty council

6.3. Weighing of assessments:

Semester Work (Tutorials and Reports) 5 %

Mid-Term Exam 15 %

Oral/Practical Exam 20 %

Final Exam 60 %

Total 100 %

(3)

3 7. List of References:

7.1.

Course notes:

Class Notes prepared by faculty members of Faculty of Science.

7.2. Essential books (textbooks):

7.3. Recommended books:

7.4. Periodicals, websites, etc.:

---None---

8. Other Resources/ Facilities of teaching and learning required for achieving the above ILOs.

• Class rooms

• Data show device

• Student library

9. We certify that all of the information required to deliver this course is contained in the above specification and will be implemented.

Course Coordinator:

Physical Department, Faculty of Science

Signature………

Date: Oct. 2020

Head of Department

Prof. Dr. Ibrahim M. M. El-Moghazy

Signature………

Date: Oct. 2020

(4)

4

Course Curriculum Map

Course title: Physics (2). Course coordinators: Physical Department, Faculty of Science Course Aim: This course is designed to:

• Teach the student to apply knowledge of physics in engineering problems solution.

• Prepare the students to integrate to adapt with new technological advancement.

Course Code

Intended Learning Outcomes (ILOs)

Topics

Week

# Teaching Methods Assessment

Methods Evidences

Knowledge and understanding

Intellectual skills

Professional and practical skills

General and transferable

skills

FS 114

𝐚𝟏, 𝐚𝟐 𝐛𝟏, 𝐛𝟐 𝐜𝟏 𝐝𝟏, 𝐝𝟐

Optical physics: Interference, Reflection- Electrostatic field – Displacement –

Capacitance

1-2 Lectures +Discussion Office hours

Tutorials, and Reports

Mid Term exams Oral

Exam/

Practical Exam Final

exam

Course file, Exam samples,

Regular reports,

𝐚_𝟏, 𝐚_𝟐 𝐛_𝟏, 𝐛_𝟐 𝐜_𝟏, 𝐜_𝟑 𝐝_𝟏, 𝐝_𝟐

Magnetic electricity – Static magnetic field due to poles and steady current – Magnetic

circuits – Magnetic effect factor 3 Lectures + Discussion +Tutorials +Office

hours

𝐚_𝟐, 𝐚_𝟑 𝐛_𝟏, 𝐛_𝟐, 𝐛_𝟑 𝐜_𝟏, 𝐜_𝟐, 𝐜_𝟑 𝐝_𝟏, 𝐝_𝟐 Simple electrical circuits – Oscillation

cycles 4 Lectures + Tutorials

+Office hours + self- reading

𝐚_𝟐, 𝐚_𝟑 𝐛_𝟏, 𝐛_𝟐 𝐜_𝟏, 𝐜_𝟐 𝐝_𝟏, 𝐝_𝟐

Modern physics: introduction – Electronic emission- Pohr theory – particles coupling

–Analysis using X-Rays deviation technique and microscope

5-6 Lectures + Tutorials + Office hours +

Discussion

a₂, a₃, a₄ 𝐛_𝟏, 𝐛_𝟑 𝐜_𝟏, 𝐜_𝟐, 𝐜_𝟑 𝐝_𝟏, 𝐝_𝟐

Electolight phenomenon – Quantum mechanics postulations – Periodic tables of

substances – Natural radiation – Particles accelerators – Nuclear energy

7-8 Lectures + Tutorials +Office hours

+Discussion

𝐚_𝟏, 𝐚_𝟐, 𝐚_𝟑 𝐛_𝟑, 𝐛_𝟒 𝐜_𝟐, 𝐜_𝟑 𝐝_𝟏, 𝐝_𝟐

X-rays physics: Nature and light – absorption – exploring – deviation due to scattering – Devices (monocolor devices – Methods of deviation, ultrasonic waves and

its applications

9-10 Lectures + Tutorials +Office hours +

Discussion

𝐚_𝟏, 𝐚_𝟐, 𝐚_𝟑, 𝐚_𝟒 𝐛_𝟐, 𝐛_𝟑, 𝐛_𝟒 𝐜_𝟑, 𝐜_𝟒 𝐝_𝟏, 𝐝_𝟐 Material science - Crystals system –

Similarity degree and groups 11-12 Lectures + Tutorials +Office hours +

Discussion

𝐚_𝟑, 𝐚_𝟒 𝐛_𝟑, 𝐛_𝟒 𝐜_𝟑, 𝐜_𝟒 𝐝_𝟏, 𝐝_𝟐

Matrices coefficients – Spherical, orthogonal, and solid radiation- General

applications 13 Lectures + Tutorials

+Office hours + Discussion

3. Intended Learning Outcomes of the course (ILOs):

COURSE SPECIFICATION

1. Administrative Information

2. Overall Aims of the Course

3. Intended Learning Outcomes of the course (ILOs):

a- Knowledge and understanding (𝑨

, 𝑨

) Upon completing this course, the student should be able to:

𝑎

-Define

𝑎

-Explain

𝑎

-Describe

𝑎

-Explain

b- Intellectual Skills(𝑩

, 𝑩

)

Upon completing this course, the student should be able to:

b

Analyze

b

-Assess

Develop

Distinguish

c- Professional and practical skills (𝑪

)

Upon completing this course, the student should be able to:

Use

Apply

Evaluate

Prepare

d- General and transferable skills (𝑫

, 𝑫

) Upon completing this course, the student should be able to:

d

- Communicate

d

- Manage

2 4. Syllabus

Topics CONTENTS

5. Teaching and Learning Methods:

5.1. Lectures.

5.2. Tutorial.

5.3. Discussion 5.4. Office hours.

5.5. Self-learning.

6. Students Assessment:

6.1. Students Assessment Methods:

6.1.1. Tutorial 6.1.2. Reports

6.1.3. Mid-term exams 6.1.4. Practical Exam 6.1.5. Written exam 6.2. Assessment schedule:

6.2.1. Tutorial

6.2.2. Reports

6.2.3. Mid-term exams

6.2.4. Practical Exam

6.2.5. Written exam

6.3. Weighing of assessments:

3 7. List of References:

Course notes:

7.2. Essential books (textbooks):

7.3. Recommended books:

7.4. Periodicals, websites, etc.:

8. Other Resources/ Facilities of teaching and learning required for achieving the above ILOs.

9. We certify that all of the information required to deliver this course is contained in the above specification and will be implemented.

4

Course Code

Intended Learning Outcomes (ILOs)

FS 114

Course file, Exam samples,

Regular reports,

Department Head: Prof. Dr. Ibrahim M. M. El-Moghazy