Module Information

معلومات المادة الدراسية

Module Title

Engineering Mechanics

Module Delivery

Module Type

B

☒ Theory

☒ Lecture

☒ Lab

☐ Tutorial

☐ Practical

☐ Seminar

Module Code

GPPE110

ECTS Credits

6

SWL (hr/sem)

150

Module Level

UGx11  2

Semester of Delivery

4

Administering Department

GPPE

 College

 COGPPE

Module Leader

 MSc. Rusul Khalid Abd

 e-mail

Rusul.alhamad@buog.edu.iq

Module Leader’s Acad. Title

Professor

Module Leader’s Qualification

Ph.D.

Module Tutor

Name (if available)

 e-mail

E-mail

Peer Reviewer Name

 MSc. Rusul Khalid Abd

 e-mail

Rusul.alhamad@buog.edu.iq

Scientific Committee Approval Date

01/06/2023

Version Number

1.0

Relation with other Modules

العلاقة مع المواد الدراسية الأخرى

Prerequisite module

Semester

Co-requisites module

Semester

Module Aims, Learning Outcomes and Indicative Contents

أهداف المادة الدراسية ونتائج التعلم والمحتويات الإرشادية

 Module Objectives

أهداف المادة الدراسية

1.  Learn about the science of static in the engineering field
2. Identify the most important applications in static engineering
3. The student's ability to link static properties and how to use them in engineering mechanics applications.
4. Learn about kinetic in the engineering field
5. Learn about the most important engineering applications
6. The student's ability to link between the properties of kinematics and how to use them in mechanical applications
7. apply skills and knowledge in math’s

Module Learning Outcomes

مخرجات التعلم للمادة الدراسية

Important: Write at least 6 Learning Outcomes, better to be equal to the number of study weeks.

1. Recognize Different force systems.
2.  Explain the principle of transmissibility of forces,
3.  Discuss the resultant force.
4. Describe the moment and a couple of moments.
5. Explain how to draw F.B.D
6. Define the equilibrium equations and it is application.
7. Explain the different supports types
8.  Study the friction force and dry friction and different friction problems.
9. Explain how to determine the Centre of gravity and centroid
10. Discuss the transfer formula of the Moment of Inertia
11. Kinematics of a Particle,
12. Rectilinear Kinematics,
13. Conservation of Energy

Indicative Contents

المحتويات الإرشادية

Indicative content includes the following.

Learning and Teaching Strategies

استراتيجيات التعلم والتعليم

Strategies

- Expressing concepts with practical examples.

- Expressing a solution for each example step by step the lectures will explain on the whiteboard, While the figures of the problems will be presented to the student using PowerPoint.

- Training Exercise- Homework

- Group exercises- Providing a new solution to the problem

-  Quizzes

Student Workload (SWL)

الحمل الدراسي للطالب محسوب لـ ١٥ اسبوعا

Structured SWL (h/sem)

الحمل الدراسي المنتظم للطالب خلال الفصل

58

Structured SWL (h/w)

الحمل الدراسي المنتظم للطالب أسبوعيا

3

Unstructured SWL (h/sem)

الحمل الدراسي غير المنتظم للطالب خلال الفصل

67

Unstructured SWL (h/w)

الحمل الدراسي غير المنتظم للطالب أسبوعيا

4

Total SWL (h/sem)

الحمل الدراسي الكلي للطالب خلال الفصل

 150

Module Evaluation

تقييم المادة الدراسية

As

Time/Number

Weight (Marks)

Week Due

Relevant Learning Outcome

Formative assessment

Quizzes

2

10% (10)

5 and 10

LO #1, #2 and #10, #11

Assignments

2

10% (10)

2 and 12

LO #3, #4 and #6, #7

Projects / Lab.

1

10% (10)

Continuous

All

Report

1

10% (10)

13

LO #5, #8 and #10

Summative assessment

Midterm Exam

2hr

10% (10)

7

LO #1 - #7

Final Exam

3hr

50% (50)

16

All

Total assessment

100% (100 Marks)

Delivery Plan (Weekly Syllabus)

المنهاج الاسبوعي النظري

Week 

Material Covered

Week 1

Introduction, Fundamental concepts and units of measurement, General procedure for analysis

Week 2

Force vectors, Vector Operations, Rectangular Components: Two Dimensions, Rectangular Components: Three Dimensions  

Week 3

Force system, the principle of transmissibility of forces, Resultant force

Week 4

Moment, and moment of a couple

Week 5

F.B.D, and Equilibrium for a Rigid Body 

Week 6

Internal forces and the different supports types

Week 7

Structural analyses, Trusses

Week 8

Friction, Theory of Dry Friction

Week 9

 Types of Friction Problems 

Week 10

Mid exam

Week 11

Center of Gravity and Centroid of plane, curve, area, volume & composite bodies

Week 12

Moments of Inertia of plane area, principal moment inertia, mass moment of inertia of circular ring, disc, cylinder, sphere, and cone about their axis of symmetry.

Week 13

Kinematics of a Particle, Rectilinear Kinematics

Week 14

 Kinematics Conservation of Energy

Week 15

Tutorials

Week 16

Preparatory week before the Final Exam

Learning and Teaching Resources

مصادر التعلم والتدريس

Text

Available in the Library?

Required Texts

 Hibbeler R. C., Engineering Mechanics, Statics, 14th ed,  

Hibbeler R. C. Engineering Mechanics, Dynamics. , 2018,

No

Recommended Texts

Engineering Mechanics-Static and Dynamics -Higdon

Engineering Mechanics-Meriam

No

Websites

                                                                     Grading Scheme

مخطط الدرجات

Group

Grade

التقدير

Marks %

Definition

Success Group

(50 - 100)

A - Excellent

امتياز

90 - 100

Outstanding Performance

B - Very Good

جيد جدا

80 - 89

Above average with some errors

C - Good

جيد

70 - 79

Sound work with notable errors

D - Satisfactory

متوسط

60 - 69

Fair but with major shortcomings

E - Sufficient

مقبول

50 - 59

Work meets minimum criteria

Fail Group

(0 – 49)

FX – Fail

راسب (قيد المعالجة)

(45-49)

More work required but credit awarded

F – Fail

راسب

(0-44)

Considerable amount of work required

Note: Marks Decimal places above or below 0.5 will be rounded to the higher or lower full mark (for example a mark of 54.5 will be rounded to 55, whereas a mark of 54.4 will be rounded to 54. The University has a policy NOT to condone "near-pass fails" so the only adjustment to marks awarded by the original marker(s) will be the automatic rounding outlined above.