Course Code: 
ARCH 261
Course Period: 
Autumn
Course Type: 
Core
Theory: 
2
Practice: 
0
Lab: 
0
Credits: 
2
ECTS: 
3
Course Language: 
İngilizce
Course Coordinator: 
Course Objectives: 
The objective of the course is to provide fundamental theoretical and practical knowledge on loads, forces, and the Newtonian laws of motion which influence the behavior of structures under the said loads and forces; and thus provide a strong infrastructure for future structural analysis and design courses.
Course Content: 

Classification of loads, and forces; laws of motion; types of supports; free body diagrams; shear and moment diagrams; truss analysis techniques; centroids; moments of inertia and parallel axes theorem; introduction to mechanics of materials.

Course Methodology: 
1: Lecture, 2: Question-Answer, 3: Discussion, 4: Seminar, 5: Project, 6: Teamwork; 7:Technical excursion
Course Evaluation Methods: 
A: Testing, B: Jury, C: Homework, D:Quiz, E:Internship

Vertical Tabs

Course Learning Outcomes

Learning Outcomes

Program Learning Outcomes

Teaching Methods

Assessment Methods

1. Ability to understand the philosophy of  the analysis and design real life structural components such as trusses, beams, frames, and simple machines

13

1, 2, 3

A, C, D

2. Understanding the concept of static equilibrium and the usage of necessary tools for analysis and design of non-deformable systems

13

1, 2, 3

A, C, D

3. Ability to choose suitable materials in accordance with the type of the structure

13

1, 2, 3

A, C, D

Course Flow

COURSE CONTENT

Week

Topics

Preparation

1

Orientation, fundamental definitions, vector & scalar quantities, types of forces

 

2

Types of loads & supports, unit systems, Newton’s Laws

 

3

Graphical, trigonometric, and static analysis & resolution of force systems

 

4

Analysis of determinate and indeterminate structures

 

5

Shear & moment diagrams, deflection curves

 

6

Shear & moment diagrams, deflection curves cont’d

 

7

Truss analysis by method of joints

 

8

Truss analysis by method of sections

 

9

Mid-term test 1

 

10

Theory & application of distributed forces – First moment of area

 

11

Theory & application of distributed forces – Second moment of area

 

12

Theory & application of distributed forces – Parallel Axes Theorem

 

13

Strength of Materials - Elastic & plastic deformation, Young’s Modulus

 

14

Strength of Materials –Stress & strain, Hooke’s Law

 

15

Mid-term test 2

 

Recommended Sources

RECOMMENDED SOURCES

Textbook

 

Additional Resources

  • VECTOR MECHANICS FOR ENGINEERS – STATICS, 7th edition
  • Ferdinand P. BEER, E. Russell JOHNSTON Jr., Elliot R. EISENBERG,  McGraw Hill Corp.
  • INTRODUCTION TO STRUCTURAL MECHANICS
  • P. ANDERSEN, G. M. NORDBY, Ronald Press
  • ENGINEERING MECHANICS
  • S. P. TIMOSHENKO, D. H. YOUNG,  McGraw Hill Corp.
  • THEORY OF STRUCTURES
  • S. P. TIMOSHENKO, D. H. YOUNG,  McGraw Hill Corp.
  • INTRODUCTION TO STRESS ANALYSIS

 

Material Sharing

MATERIAL SHARING

Documents

 

Assignments

 

Exams

 Midterm and Final exam

Assessment

ASSESSMENT

IN-TERM STUDIES

NUMBER

PERCENTAGE

Mid-terms

2

 

Homework

 

 

Project (Assignment)

 

 

Laboratory

 

 

Field survey

 

 

Seminars/presentations

 

 

Other

 

 

Final Exam (Final Project)

1

 

Contrıbutıon of Final Examination to Overall Grade

 

 

Contrıbutıon of In-term Studies to Overall Grade

 

 

Total

 

 

Course Category

Expertise/Field Courses

Course’s Contribution to Program

COURSE'S CONTRIBUTION TO PROGRAM

 

No

 

Program Learning Outcomes

Contribution Level

 (1: lowest,                               5: highest )

1

2

3

4

5

1

Critical thinking skills: Ability to develop clear and open questions, use abstract ideas to express ideas, evaluate opposing views, reach to the well-examined results and test them with similar criteria and standards

 

 

 

 

 

2

Communication / Graphic communication skills: Ability to formally express each stage of planning and design process with various techniques including hand-drawings and information technologies to create appropriate presentations; to have an ability of a complete and accurate technical description and documentation of the project

 

 

 

 

 

3

Research skills/ Ability of Utilization from Examples: Ability to obtain relevant information, assessment, recording and apply during the architectural processes; the ability to discover examples that are appropriate to program and form, concerning the composition and development of architectural and urban projects

 

 

 

 

 

4

Design skills: Understanding the creation, development and implementation processes of two and three dimension design, architectural composition, and visual perception and organization in urban design, ability to apply basic architectural principles in building, interiors and layout

 

 

 

 

 

5

World architecture: Comprehending the rules of world  architecture, landscape and urban design, and also the climatic, technological, socio-economic and cultural factors which shape these principles

 

 

 

 

 

6

Regional Architecture / Cultural Diversity: Comprehending the effects of national traditions and historical heritage in national and vernacular architecture including local architecture, landscape and urban design.

 

 

 

 

 

7

Cultural Heritage and Conservation: Having awareness of the protection of historical areas as well as the basic principles for the documentation of historical monuments and buildings for the preparation of their restoration projects.

 

 

 

 

 

8

Sustainability: Conservation of artificial sources which also include naturally and culturally significant buildings and spaces, regarding the role of sustainability in the architectural and urban design decisions and understanding the formation of healthy buildings and establishments 

 

 

 

 

 

9

Social Responsibility: Comprehending  the needs, behaviors, social and spatial patterns which characterize different cultures

 

 

 

 

 

10

Nature and Human: Understanding the interaction between physical environment and humans

 

 

 

 

 

11

Geographical Conditions: Ability to design settlement and building considering the natural and artificial properties of site 

 

 

 

 

 

12

Life safety: Understanding the basic principles of life safety systems with an emphasis on the topic of emergency exits

 

 

 

 

 

13

Structural systems: Understanding the behavioral principles of standing structures with vertical and horizontal forces and the development and application of contemporary load-bearing systems

 

X

 

 

 

14

Building Physics and Environmental Systems: Understanding the basic principles of lighting, acoustics, air-conditioning and energy use in the design of environmental systems.

 

 

 

 

 

15

Building Shell Systems: Understanding the materials and basic design systems and correct application types of building shells

 

 

 

 

 

16

Building Service Systems : Understanding the basic design principles of building service systems composing,  plumbing , electric , vertical circulation, communication, security and fire safety systems

 

 

 

 

 

17

Construction Materials and Applications: Understanding the principles and standards of building materials and components in terms of production and applications.

 

 

 

 

 

18

Integration of Building Systems: Ability of evaluation, selection and integration of building service systems, environment, security and building shells in building design.

 

 

 

 

 

19

Program Organization and Evaluation: The ability to evaluate an architectural project with a comprehensive program, according to the design criteria concerning the client, user requirements, appropriate precedents, space and equipment requirements, site conditions and related laws and standards

 

 

 

 

 

20

Comprehensive Project Development: Ability to improve and evaluate an architectural project with comprehensive program from graphical design to system details (Structural and environmental systems, security, etc.)

 

 

 

 

 

21

Control of Building Cost: Within the framework of the design project; understanding the basics of finance, building economy and cost control

 

 

 

 

 

22

Architect-Employer Relationship: Understanding the responsibility of analyzing the requirements of the owner and customer as an architect

 

 

 

 

 

23

Teamwork and Collaboration: Ability to enhance individual skills and take on different roles through identification and work as a member of the design team , in conjunction with other environments

 

 

 

 

 

24

Project Management: Understanding the duty of tasking, contracting, personnel management, consultants, project delivery methods and service agreement

 

 

 

 

 

25

Application Management: Understanding issues of office organization, business planning, marketing, financial management, project management, risk mitigation, the basic principles of leadership and the profession of issues affecting the globalization, outsourcing, project delivery, expanding practice that support the profession of architecture

 

 

 

 

 

26

Leadership: Understanding the pioneer role of the architect in the process of project and design for contract administration

 

 

 

 

 

27

Legal Rights and Responsibilities: Understanding the legal responsibilities of the architect in building design and construction such as public health, safety and well-being, property rights, zoning and housing regulations, user rights which affect architectural studies

 

 

 

 

 

28

Architectural Practice / Professional Development: Understanding the role of the internship in professional development, and  mutual rights and responsibilities of the employer and the trainee

 

 

 

 

 

29

Professional Ethics: Understanding the ethical issues that are related to the professional adjudication in architectural design and practice

 

 

 

 

 

ECTS

ECTS / STUDENT WORK LOAD

 

NUMBER

DURATION 
(HOURS)

TOTAL WORK LOAD 
(HOURS)

Course Duration (14 weeks x total work hours)

14

3

42

Workload outside the classroom (research and reviews)

13

1

13

Quiz

 

 

 

Homework

1

 

15

Presentation/Seminars

 

 

 

Midterm

1

 

15

Project

 

 

 

Laboratory

 

 

 

Field survey

 

 

 

Others

 

 

 

Final exam (Final Project)

1

 

30

Total work load

 

 

107

Total work load / 25

 

 

4,6

ECTS of the course

 

 

5

2