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 : Mechanics of Machine

Code : PDE 115

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:2hrs./week Practical: None Others: None Total:6hrs./week

2. Overall Aims of the Course This course is designed to:

• Help student develop a physical awareness of the mechanisms of machine.

• Emphasizes the concepts and principles that are common to applications in modern machines

• Demonstrate the importance of forces, friction and dynamic forces between machine elements

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

a- Knowledge and understanding (𝑨

_𝟏+ 𝑨_𝟏𝟗)

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

𝑎₁

-Define

the relative motion between machine parts and concepts of different mechanisms.

𝑎₂

-Explain

the effect of friction forces between machine elements on the power consumed and wear of machine life

𝑎₃

-Describe

dynamic forces resulting from the relative motion

b- Intellectual Skills (𝑩

_𝟒

)

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

b₁-

Investigate

the effect of friction on machine life

b₂

-Apply

the Newton's laws, gearing law, work, power and energy b₃

-Analyze

velocity, acceleration, and forces by different methods.

c- Professional and practical skills(𝑪

_𝟏)

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

𝑐₁-

Apply

the taught fundamentals in solving the problems of mechanisms 𝑐2-

Prepare

the velocity and acceleration polygons of different machines

d- General and transferable skills (𝑫

_𝟏, 𝑫_𝟐

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

d₁

- Manage

time effectively

d₂

- Communicate

effectively alone and within team.

(2)

PDE 115 Course Specification

2 4. Syllabus

Topics CONTENTS

Topic (1)

Some simple mechanisms – Four-bar mechanism – Internal combustion mechanism

Topic (2)

Fast-return mechanism – Rotation mechanism – Line-motion mechanism – Interrupted

motion mechanism

Topic (3)

Kinematic of moving bodies in a plane – Displacement analysis of the four-bar mechanism

Topic (4)

Velocity analysis of mechanisms using nonlinear center of rotation

Topic (5)

Velocity and acceleration of relative motion – Velocity and acceleration polygons – algebraic analysis

Topic (6)

Inertia of masses – Kinematics of solid bodies in a plane (Newton’s law – energy – momentum

Topic (7)

Static analysis, dynamic forces – Static and dynamic analysis 5. Teaching and Learning Methods:

5.1. Lectures.

5.2. Tutorial.

5.3. Discussion 5.4. Team work.

5.5. Office hours.

5.6. 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. Written exam 6.2. Assessment schedule:

6.2.1. Tutorial

week # 4,6,8,10,12,14

6.2.2. Reports

Scheduled by the instructor according to the topic

6.2.3. Mid-term exams

Week # 9 (1^stSemester)

6.2.4. Practical Exam

Week # 12 (1^stSemester)

6.2.5. Written exam

Scheduled by the faculty council

6.3. Weighing of assessments:

Semester Work (Tutorials and Reports) 20 %

Mid-Term Exam 20 %

Final Exam 60 %

Total 100 %

7. List of References:

7.1.

Course notes:

Handout by the instructor

7.2. Essential books (textbooks):

(3)

3 1- Maher G. Mohamed, Kinematics and Dynamics of Mechanisms and Machines, Dar Heraa Publishing Co., Egypt, (1999)

7.3. Recommended books:

1- Meriam, J.L., Engineering Mechanics: Dynamics, Vol. 2, SI Version, 3

^rd

Edition, John Wiley & Sons, Inc., (1993).

7.4. Periodicals, websites, etc.:

www.Technologystudent.com

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

•

Class rooms

•

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:

Dr. Ahmed M. M. Ibrahim

Signature………..

Date: Oct. 2020

Head of Department

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

Signature………..

Date: Octt. 2020

(4)

4 Course Curriculum Map Course title: Mechanics of Machines

Course coordinators: Dr. Ahmed M. M. Ibrahim Course Aim: This course is designed to

• Help student develop a physical awareness of the mechanisms of machine.

• Emphasizes the concepts and principles that are common to applications in modern machines

• To demonstrate the importance of forces, friction and dynamic forces between machine elements

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

PDE 115

𝐚_𝟏, 𝐚_𝟑 𝐛_𝟏

Some simple mechanisms – Four-bar mechanism – Internal combustion

mechanism

1-2 Lectures +Discussion Tutorials +Office

hours

Tutorials, and Reports Mid Term

exams Final exam

Course file, Exam samples,

Regular reports, and Mini

Projects

𝐚𝟏, 𝐚𝟑 𝐛𝟐, 𝐛𝟑 𝐜𝟏 𝐝𝟏, 𝐝𝟐

Fast-return mechanism – Rotation mechanism – Line-motion mechanism – Interrupted motion

mechanism

3

Lectures + Discussion +Tutorials +Office

hours

𝐚_𝟏, 𝐚_𝟑 𝐛_𝟐 𝐜_𝟏 𝐝_𝟏

Kinematic of moving bodies in a plane – Displacement analysis of the

four-bar mechanism

4 Lectures + Tutorials + Discussion + self-

reading 𝐚𝟐, 𝐚𝟑 𝐛𝟐, 𝐛𝟑 𝐜𝟏, 𝐜𝟐 𝐝𝟏, 𝐝𝟐

Velocity analysis of mechanisms

using nonlinear center of rotation ^5-6

Lectures + Tutorials + Office hours +

Discussion a₂, a₃ 𝐛_𝟐, 𝐛_𝟑 𝐜_𝟏, 𝒄_𝟐 𝐝_𝟏, 𝐝_𝟐

Velocity and acceleration of relative motion – Velocity and acceleration

polygons – algebraic analysis ^7-8

Lectures + Tutorials +Office hours +Team work+

Discussion

𝐚_𝟐, 𝐚_𝟑 𝐛_𝟑 𝐜_𝟏, 𝐜_𝟐 𝐝_𝟐

Inertia of masses – Kinematics of solid bodies in a plane (Newton’s law

– energy – momentum ^9-10

Lectures + Tutorials +Office hours +

Team work + Discussion

𝐚𝟏, 𝐚𝟐 𝐝𝟏, 𝐝𝟐

Static analysis, dynamic forces –

Static and dynamic analysis ^11-12

Lectures + Tutorials +Office hours +

Team work

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

COURSE SPECIFICATION

1. Administrative Information

2. Overall Aims of the Course This course is designed to:

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

a- Knowledge and understanding (𝑨

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

-Define

-Explain

-Describe

b- Intellectual Skills (𝑩

)

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

Investigate

-Apply

-Analyze

c- Professional and practical skills(𝑪

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

Apply

Prepare

d- General and transferable skills (𝑫

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

- Manage

- Communicate

2 4. Syllabus

Topics CONTENTS

Some simple mechanisms – Four-bar mechanism – Internal combustion mechanism

Fast-return mechanism – Rotation mechanism – Line-motion mechanism – Interrupted

motion mechanism

Kinematic of moving bodies in a plane – Displacement analysis of the four-bar mechanism

Velocity analysis of mechanisms using nonlinear center of rotation

Velocity and acceleration of relative motion – Velocity and acceleration polygons – algebraic analysis

Inertia of masses – Kinematics of solid bodies in a plane (Newton’s law – energy – momentum

Static analysis, dynamic forces – Static and dynamic analysis 5. Teaching and Learning Methods:

5.1. Lectures.

5.2. Tutorial.

5.3. Discussion 5.4. Team work.

5.5. Office hours.

5.6. 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. 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:

7. List of References:

Course notes:

7.2. Essential books (textbooks):

3

1- Maher G. Mohamed, Kinematics and Dynamics of Mechanisms and Machines, Dar Heraa Publishing Co., Egypt, (1999)

7.3. Recommended books:

1- Meriam, J.L., Engineering Mechanics: Dynamics, Vol. 2, SI Version, 3

Edition, John Wiley & Sons, Inc., (1993).

7.4. Periodicals, websites, etc.:

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

Class rooms

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.

4

Course Curriculum Map Course title: Mechanics of Machines

Course coordinators: Dr. Ahmed M. M. Ibrahim Course Aim: This course is designed to

Course

code

Intended Learning Outcomes (ILOs)

Tutorials, and Reports Mid Term

exams Final exam

Course file, Exam samples,

Regular reports, and Mini

Projects

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