Papua New Guinea University of Technology- Department of Civil & Environmental Engineering

PAPUA NEW GUINEA UNIVERSITY OF TECHNOLOGY- DEPARTMENT OF CIVIL & ENVIRONMENTAL ENGINEERING : LESSION PLAN CE 312 –STRUCTURAL ANALYSIS 1 / 2017 /

Papua New Guinea University of Technology

Department of Civil & Environmental Engineering

Lesson Plan CE312- STRUCTURAL ANALYSIS I

Subject / Structural Analysis I / Subject Code / CE312
Semester/year / 2/2017 / Date Prepared / 6/08/2017
Lecturer(s) / Mr. William Pikire (Course Co-ordinator) / Credit Hours
(PNG standard) / 14
Period / 15 weeks / Credit Hours
(Engineering Accreditation
Standard) / 4
Subject Synopsis / The subject covers the topic of Principles of Virtual Work and its application in different types of structures; Maxwell and Betti Theorem and its application; Application of the Flexibility and Stiffness Methods of Structural Analysis on the different types of structures; Formulation of Flexibility Matrices; Flexibility Method; Displacement Transformation Matrices and the Stiffness Equations for Stiffness Method.
Contact hours / Lecture: 4hours/week
Tutorial: 1 hour/week
Lab: Nil
Evaluation / Continuous assessment 40 %
Final Examination 60%
Learning Outcomes / At the conclusion of this subject, students should be able to:

Analyse different types of structures using Virtual Work.
Show Maxwell and Betti Theorem as it is applied in the analysis of different types of structures.
Describe the principles and application of the Flexibility and Stiffness Methods of Structural Analysis on the different types of structures.
Formulate a Flexibility Matrix and apply accordingly using the Flexibility Method.
Formulate a Displacement Transformation Matrix and the Stiffness Equations applied Stiffness Method.

Assessment Methods / Distribution / (%) / LO1 / LO2 / LO3 / LO4 / LO5
Test / 20 / x / x / x / x / x
Assignment / 20 / x / x / x / x / x
Exam / 60 / x / x / x / x / x
Learning Resources /

Lecturers
Recommended textbooks
Printed class notes and the associated files
Google class room Code : cjo6sn

References
Used in Class /

Essential Solid Mechanics by BW Young ; Second Edition, 1992
Website for worked examples

Program Outcomes

PO1 / An ability to apply the knowledge of mathematics and science in all aspects of Civil Engineering.
PO2 / An ability to design and conduct experiments, as well as to analyse and interpret data and report findings
PO3 / An ability to design and analyse a civil engineering structure or system, in order to meet desired outcomes within realistic constraints such as economic, environmental, social, political, ethical, health and safety, aesthetical and sustainability.
PO4 / An ability to identify, use, and apply the appropriate techniques and tools to investigate, analyse, design, construct and commission structures.
PO5 / An ability to communicate effectively and to prepare formal technical plans and detailed reports leading to the understanding and knowledge of civil engineering solutions.
PO6 / An ability to participate in a multidisciplinary team and appreciate his/her scope of work, and responsibilities for the success of a project.
PO7 / Possess an understanding of professional, safety and ethical responsibility.
PO8 / Broad understanding of the impact of engineering solutions in a local and global environmental and societal context.
PO9 / Recognise the need for engaging in life-long learning to upgrade to higher learning and research activities and specialisation.
PO10 / Comprehensive knowledge of contemporary issues due to changing technical scenario.
PO11 / An ability to apply project management techniques, skills, and tools necessary for engineering practice.
Week / Lecture Topic / Topic Outcomes (TOs) / LO / PO / Delivery Methods
1 / Introduction to Indeterminate Structures in different types of structures using the Principles of Virtual Work /

Be able to identify Indeterminate Structures.
Be able to explain principles of Virtual Work and apply to perform structural analysis on these indeterminate structures.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
2 / Degree of Redundancy in different types of structures using the Principles of Virtual Work /

Work out the Degree of Redundancy in these indeterminate structures
Be able to explain principles of Virtual Work and apply to perform structural analysis on these indeterminate structures.

/ 1,3 & 4 / 1,3 & 4
3 / Application of Virtual Work on the Indeterminate Frames of different types using Principles of Virtual Work. /

Be able to identify Indeterminate Frames/Structures.
Be able to apply principles of Virtual Work to perform structural analysis on these Indeterminate Structure.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
4 / Application of Virtual Work on Simple Frames/Structures – Determinate Frames /

Be able to identify Simple Determinate Frames/Structures.
Be able to apply principles of Virtual Work to perform structural analysis on these Simple Frames/Structures.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
5-6 / Application of Virtual Work on Pin Joint Frames using Determinate Frames /

Be able to identify Determinate Pin Joint Frames/Structures.

Be able to apply principles of Virtual Work to perform structural analysis on these Pin Jointed Frames/Structures.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
7 / Application of Virtual Work on Pin Joint Frames using Indeterminate Frames /

Be able to identify Indeterminate Structures and work out the Degree of Redundancy in these indeterminate Pin Jointed Frames/Structures.

Be able to understand principles of Virtual Work and apply to perform structural analysis on these indeterminate Pin Jointed Frames/Structures.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
8 / Maxwell and Betti Theorem and its’ Application /

Be able to grasp Maxwell and Betti Theorem/Principles.

Be able to apply Maxwell and Betti Theorem by performing structural analysis on different types of structures.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
Semester 2 Break
9 / The Flexibility Methods of Structural Analysis /

Be able to grasp the concepts of Flexibility Methods of Structural Analysis.

Be able to apply both methods of Structural Analysis on different types of structures.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
10 / Formulation of Flexibility Matrices (and Application) – Flexibility Method /

Be able to formulate Flexibility Matrices for different types of structures- Flexibility Method.

Be able to apply in structural analysis of different types of frames.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
11 / The Stiffness Methods of Structural Analysis /

Be able to grasp the concepts of Stiffness Methods of Structural Analysis.

Be able to apply both methods of Structural Analysis on different types of structures.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
12 / Formulation of Displacement Transformation Matrices and the Stiffness Equations – Stiffness Method /

Be able to formulate Displacement Transformation Matrices for different types of structures- Stiffness Method.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
14 / Application of Displacement Transformation Matrices and the Stiffness Equations – Stiffness Method /

Be able to apply in structural analysis of different types of frames.

/ 1,3 & 4 / 1,3 & 4 / Lecture, Tutorial,
15 / Revision
16 / Semester 2 Examination
Assessment Details
Type / Group/ Individual / Learning Domain / Mark
Test / Individual / Cognitive / 20
Assignments / Individual / Cognitive / 20
End Semester Exam / Cognitive / 60

Assessment schedule:

Week No.
1 / 2 / 3 / 4 / 5 / 6 / 7 / 8 / 9 / 10 / 11 / 12 / 13 / 14 / 15
Assessment Methods / Laboratory
Test1-3 / X / X / X
Review Questions
Assignment / X / X / X

LO-PO mapping:

PO 1 / PO 2 / PO 3 / PO 4 / PO 5 / PO 6 / PO 7 / PO 8 / PO 9 / PO 10 / PO 11
Learning Outcomes LOs / LO 1 / X / X
LO 2 / X / X / X
LO 3 / X / X / X
LO 4 / X / X / X
LO5 / X / X / X

Prepared By:William Pikire CheckedApproved By:Mr. Chris Kobal

(Head of the department CEE)

Date: 6/08/17Date:

Remarks:

Assessment:Continuous assessment – 40%

Assignments – 20%

Tests – 20%

Written Examination - 60% (1x 3hours)

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