Teaching Plan BMCG 1113 2014 2015 Ulearn

Fakulti Kejuruteraan Mekanikal Universiti Teknikal Malaysia Melaka

1/5

STATICS

BMCG 1113

SEMESTER 1

SESSION 2014/2015

1.0 OBJECTIVES

The principal objective is to introduce the fundamentals concept of mechanics in solving the engineering mechanics problems in static conditions.

2.0 LEARNING OUTCOMES

On successful completion of this course, student should be able to: LO1 Describe and apply the basic concepts and fundamental principles of engineering mechanics (statics). LO2 Analyze and solve equilibrium problems of particle and rigid body. LO3 Work as an effective member of a team to solve engineering mechanics (statics) problems.

3.0 SYNOPSIS

The engineering mechanics of statics provides an introduction and the basic concept of statics as physical sciences, system of units, scalars and vectors, Free Body Diagram, forces system, force system resultants and moment, equilibrium of a particle, equilibrium of a rigid body, structural analysis (trusses analysis and simple frames and machines), friction and center of gravity and centroid.

4.0 REFERENCES

a. Hibbeler R.C., 2013, Engineering Mechanics –Statics, 13th Ed., Prentice Hall. b. Beer F.P and Johnston. E.R. , 2011, Statics and mechanics of materials, McGraw-Hill. c. Morrow H.W., 2011, Statics and strength of materials, Prentice Hall. d. Mott R.L., 2010, Statics and strength of materials, Prentice Hall.

Teaching Plan

UNIVERSITI TEKNIKAL MALAYSIA MELAKA FAKULTI KEJURUTERAAN MEKANIKAL


2/5

5.0 COURSE IMPLEMENTATIONS

a. Lecture - 3 hours per week for 14 weeks (Total = 42 hours). b. Tutorial - 1 hour per week for 7 weeks (Total = 7 hours).

6.0 COURSE INSTRUCTIONS

Attendance is compulsory for lectures and should be more than 80% of the total contact hours.

7.0 COURSE EVALUATIONS

Criteria Percentage (%)

CO

UR

SE

WO

RK

ASSIGNMENT 1 Assignment 20

QUIZ 4 quizzes. 5 - 10 minutes.

10

EX

AM

MID-SEM EXAM 1 mid-semester examination. 1 ½ hours.

20

FINAL EXAM 1 final examination. 2 ½ hours.

50

TOTAL 100

8.0 COURSE CONTENTS

Week Chapter Contents Remarks

1 8/9 – 14/9

CHAPTER 1 General Principles CHAPTER 2 Force Vectors

1.0 Introduction 1.1 Mechanics 1.2 Fundamental concepts 1.3 Units of Measurement 1.4 The International Systems of Units. 1.5 Numerical Calculation 1.6 General Procedure for Analysis 2.0 Force Vectors 2.1 Scalars and Vectors 2.2 Vector Operations 2.3 Vector Addition of Forces 2.4 Addition of a System of Coplanar

Forces 2.5 Cartesian Vectors (scalar analysis)

2

2.6 Addition and Subtraction of Cartesian


3/5


15/9 –

21/9

CHAPTER 3 Equilibrium of a Particle

Vectors (scalar analysis) 2.7 Position Vectors (scalar analysis) 2.8 Force Vector Directed Along a Line 3.0 Equilibrium of a Particle (2D & 3D) 3.1 Condition for the Equilibrium of a

Particle 3.2 The Free-Body Diagram 3.3 Coplanar Force Systems 3.4 Three-Dimensional Force Systems

Tutorial 1 (Ch 2)

3 22/9 –

28/9

CHAPTER 4 Force System Resultants

4.0 Force System Resultants 4.1 Moment of a Force – Scalar

Formulation 4.2 Cross Product (optional) 4.3 Moment of a Force – Vector

Formulation (optional) 4.4 Principle of Moments

Tutorial 2 (Ch 3)

4 29/9 –

5/10

4.5 Moment of a Force about a Specific

Axis (scalar analysis) 4.6 Moment of a Couple (scalar analysis) 4.7 Equivalent System 4.8 Resultants of a Force and Couple

System

5 6/10 – 12/10

CHAPTER 5 Equilibrium of a Rigid Body

5.0 Equilibrium of a Rigid Body 2D & 3D 5.1 Conditions for Rigid-Body Equilibrium 5.2 Free-Body Diagrams (2D) 5.3 Equations of Equilibrium (2D)

Tutorial 3 (Ch 4)

6 13/10 –

19/10

5.4 Two and Three Force Members 5.5 Free-Body Diagrams (3D)

7 20/10– 26/10

MID-SEMESTER BREAK

8 27/10 –

2/11

5.6 Equations of Equilibrium (3D) 5.7 Constraints for a Rigid Body

Tutorial 4 (Ch 5) MID-SEM EXAM (Ch 3 - 5) 31.10.2014


4/5


9 3/11 – 9/11

CHAPTER 6 Structural Analysis

6.0 Structural Analysis 6.1 Simple Trusses 6.2 The Method of Joints

ASSIGNMENT

10 10/11 –

16/11

6.3 Zero Force Members 6.4 The Method of Sections

Tutorial 5 (Ch 6)

11 17/11 –

23/11

6.5 Frames and Machines

12 24/11 –

30/11

CHAPTER 7

Friction

7.0 Friction 7.1 Characteristics of Dry Friction 7.2 Problems Involving Dry Friction

13 1/12 – 7/12

7.3 Wedges

Tutorial 6 (Ch 7)

14 8/12 –

14/12

CHAPTER 8

Center of Gravity and

Centroid

8.0 Center of Gravity and Centroid 8.1 Center of Gravity and Center of Mass

for a System of Particles 8.2 Center of Gravity, Center of Mass

and Centroid for a Body

15 15/12 –

21/12

8.3 Composite Bodies

Tutorial 7 (Ch 8)

16 22/12 –

28/12

STUDY BREAK

17-18 29/12

– 13/1

FINAL EXAM


5/5

9.0 TEACHING STAFF

Week Lecturers

Week 1 – Week 8

Dr. Isa Bin Halim Tel: 06-3316501 Hp: 012-5142756 Room : BG-26, FTMK, UTeM Email: [email protected]

Week 9 – Week 15

Mr. Abdul Rahim Bin Shamsudin

Tel: 06- 3316974

Hp: 017-6641976 Room : PPS-16-Aras 2, Psuat Pengajian Siswazah (PPS), UTeM Email: [email protected]

Teaching Plan BMCG 1113 2014 2015 Ulearn

Documents

Transcript of Teaching Plan BMCG 1113 2014 2015 Ulearn