Fundamentals of Structural Engineering - FE Civil Exam from Udemy

In this course, you are going to have full preparation for the FE Civil Exam covering the topic of "Structural Engineering" which covers both Structural analysis and Structural design

The course covers all of the "Structural Engineering" topic requirements as per latest NCEES requirements released in July - 2020 , which covers both structural analysis & structural design including the following chapters

Analysis of statically determinant beams, columns, trusses and frames
Drawing of shear force diagrams and bending moment diagrams
Deflection of statically determinant beams, trusses and frames.
Columns analysis (e.g., buckling, boundary conditions)
Structural determinacy and stability analysis of beams, trusses and frames.
Moving loads and influence line
Philosophy of design as per international code
LRFD and ASD Loads combinations as per ASCE code
Structural Design of steel components (beams, columns, tension members, connections)
Structural Design of reinforced concrete components (beams, columns under normal force, columns under moment)

This course will be your only studying source as it is the most comprehensive available course for the FE Civil exam that will enable you to master the "Structural Engineering" topic for FE Civil Exam by going through the "3" following steps :-

In the first step, you are going to watch the Full explanation videos that explain the physical meaning and the engineering concepts of the structural engineering as per and of course, the step by step videos for the solution to all of the exams problems are available to understand any point you might have missed.

All of the problems were carefully chosen from many different resources to resemble the same level of difficulty of the real FE Civil exam

With this course, you will have access to our private FB group where you can discuss with the instructor and the remaining students any findings or clarifications you might have about this course, and you will be having the instructor's full support till you pass your FE Civil Exam.

Also, this course is not only for engineers interested in attending the FE Civil Exam. This course would perfectly suit any structural/civil engineer who wants to understand all of the basics of Structural Engineering.

Visit our Udemy channel, to check the remaining courses covering the remaining topics of the FE Civil Exam...

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What's inside

Learning objectives

Master the "structural engineering" as per fe civil exam requirements
More than 50 step-by-step solved examples covering each sub-topic of the structural engineering
4 practice exams with different problems that resemble the same difficulty level of the real exam
Step-by-step solution for the practice exams problems
Learning the structural analysis of beams, frames & trusses

Learning deflection calculations of beams, frames and trusses
Learning different types of loads, loads combinations and design philosophy as per aci and ibc code requirements
Learning the structural design of rc beams and columns
Learning the structural design of steel elements such as beams, columns and connections.

Master the "structural engineering" as per fe civil exam requirements
More than 50 step-by-step solved examples covering each sub-topic of the structural engineering
4 practice exams with different problems that resemble the same difficulty level of the real exam
Step-by-step solution for the practice exams problems
Learning the structural analysis of beams, frames & trusses
Learning deflection calculations of beams, frames and trusses
Learning different types of loads, loads combinations and design philosophy as per aci and ibc code requirements
Learning the structural design of rc beams and columns
Learning the structural design of steel elements such as beams, columns and connections.

Syllabus

Introduction

Introduction about the course

Structural Analysis

Structural determinacy & stability of beams

Structural determinacy & stability of trusses

Deflection of trusses

Moving loads

Influence line for beams

Influence line for trusses

Fixed end moment

Practice Exam No.1

Practice Exam answers (Part 1)

Practice Exam answers (Part 2)

Practice Exam answers (Part 3)

Practice Exam answers (Part 4)

Practice Exam answers (Part 5)

Practice Exam answers (Part 6)

Practice Exam answers (Part 7)

Practice Exam answers (Part 8)

Practice Exam answers (Part 9)

Introduction about Structural Design

Philosophy of the structural design as per IBC, ASCE & ACI code

Structural Design of Reinforced Concrete

Introduction about reinforced concrete design

Structural design of RC beams - Flexure

Structural design of RC beams - Shear

Structural design of RC columns - Normal force only

Structural design of RC columns - Normal and moment

Practice Exam No.2

Structural Design of Steel

Introduction about steel Structural design

Structural design of steel columns

Structural design of steel beams

Structural design of steel tension members & steel connections

Practice Exam No.3

Conclusion

Extra resources - Drawing of SFD and BMD

Extra resources - SFD & BMD Examples (Part 1)

Extra resources - SFD & BMD Examples (Part 2)

Extra resources - SFD & BMD Examples (Part 3)

Extra resources - SFD & BMD Examples (Part 4)

Extra resources - SFD & BMD Examples (Part 5)

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Covers structural analysis and design, which are fundamental topics for civil engineering students preparing for the FE Civil Exam

Includes practice exams that resemble the difficulty level of the real FE Civil exam, providing valuable preparation for test-takers

Explores LRFD and ASD load combinations as per ASCE code, which is essential knowledge for structural engineers in professional practice

Teaches structural design of steel and reinforced concrete components, which are core skills for civil engineers

Refers to the NCEES requirements released in July 2020, so learners should confirm that these requirements are still up to date

Requires familiarity with ACI and IBC codes, which may necessitate additional study for those unfamiliar with these standards

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Fundamentals of Structural Engineering - FE Civil Exam with these activities:

Review Statics and Mechanics of Materials

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Reviewing statics and mechanics of materials will reinforce the fundamental principles needed for structural analysis.

Browse courses on Statics

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Review key concepts like equilibrium and stress.
Practice solving problems related to beams and trusses.

Review "Structural Analysis" by R.C. Hibbeler

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Reviewing this book will reinforce structural analysis principles and methods.

View Structural Analysis on Amazon

Show steps

Read chapters related to beams, trusses, and frames.
Solve example problems in the book.

Practice Shear and Moment Diagram Problems

Show steps

Practicing shear and moment diagram problems will improve your ability to analyze beams and frames.

Show steps

Find practice problems online or in textbooks.
Draw shear and moment diagrams for various beam loadings.
Check your answers against solutions.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Create a Presentation on LRFD vs. ASD

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Creating a presentation on LRFD vs. ASD will help you understand the differences between these design philosophies.

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Research the principles of LRFD and ASD.
Compare and contrast the two methods.
Prepare slides with key information and examples.
Practice your presentation.

Design a Simple Steel Beam

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Designing a simple steel beam will allow you to apply the design principles learned in the course.

Show steps

Determine the loading conditions for the beam.
Select an appropriate steel section based on design codes.
Check the beam for bending, shear, and deflection.
Document your design calculations.

Review "Reinforced Concrete Design" by McCormac and Brown

Show steps

Reviewing this book will deepen your understanding of reinforced concrete design principles.

View Design of Reinforced Concrete, 10th Edition on Amazon

Show steps

Read chapters related to reinforced concrete beams and columns.
Work through example problems in the book.

Create a Design Code Reference Sheet

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Compiling key design code provisions will provide a quick reference for future design projects.

Show steps

Identify relevant sections from ACI and AISC codes.
Summarize the key requirements and formulas.
Organize the information in a clear and concise format.

Career center

Learners who complete Fundamentals of Structural Engineering - FE Civil Exam will develop knowledge and skills that may be useful to these careers:

Structural Engineer

A Structural Engineer designs and analyzes structures, ensuring they can withstand various loads and environmental conditions. This course, focusing on structural engineering principles for the FE Civil Exam, directly addresses the core knowledge required for this role, including the analysis of beams, columns, trusses, and frames. The course's emphasis on structural design of both steel and reinforced concrete components makes it a perfect fit; the course provides a comprehensive foundation in the necessary calculations and design considerations expected by a Structural Engineer.

See salaries and explore the career path for Structural Engineer

Bridge Engineer

Bridge Engineers specialize in the design and construction of bridges, requiring detailed knowledge of structural principles. This course introduces core concepts like deflection calculations of beams and trusses. The course’s content on moving loads and influence lines, alongside coverage of steel and reinforced concrete design, makes it a very relevant preparation since a Bridge Engineer must understand these concepts. The comprehensive coursework can help a Bridge Engineer feel more confident in their analysis and design work.

See salaries and explore the career path for Bridge Engineer

Civil Engineer

Civil Engineers plan, design, and oversee construction projects, making foundational knowledge of structural engineering essential. This course provides core instruction on structural analysis and design, covering essential topics such as the behavior of beams, columns, and frames. A Civil Engineer needs a deep understanding of structural principles, and the course's coverage of topics like load combinations and design philosophy as per international codes is very pertinent to this discipline. This course provides a comprehensive treatment and will certainly help a Civil Engineer in their daily work.

See salaries and explore the career path for Civil Engineer

Engineering Consultant

An Engineering Consultant provides expert advice and solutions on a broad range of engineering projects. This course provides an in-depth understanding of both structural analysis and design. The course's instruction on the structural design of steel and reinforced concrete components, combined with its focus on design codes and structural mechanics, serves as foundational knowledge that an Engineering Consultant may leverage. The course will help an Engineering Consultant provide well-informed and technically sound guidance to clients.

See salaries and explore the career path for Engineering Consultant

Building Inspector

A Building Inspector examines structures to ensure compliance with safety and building codes. This course, focused on structural engineering, provides the necessary insights into structural analysis, load combinations, and design principles. This course's content on steel and reinforced concrete components, along with deflection calculations, allows a Building Inspector to better assess the structural integrity of a building. A Building Inspector will find this course quite helpful since it builds an understanding of how structures behave under stress.

See salaries and explore the career path for Building Inspector

Design Engineer

A Design Engineer is involved in the technical design of engineering projects, often including structural elements. This course provides a strong basis in structural analysis and design. The course content, which covers the design of steel and concrete components, is directly applicable to the work a Design Engineer might undertake. The course's thorough treatment of structural mechanics and design standards helps a Design Engineer work more effectively. This course will help a Design Engineer feel confident in analyzing designs under real world conditions.

See salaries and explore the career path for Design Engineer

Public Works Engineer

Public Works Engineers design and manage infrastructure projects for communities. This course in structural engineering is valuable given that many public works projects involve structural components. The course’s emphasis on steel and concrete design, combined with structural analysis of beams and frames, helps them make sound decisions. The course may help a Public Works Engineer to better understand the structural challenges associated with community projects.

See salaries and explore the career path for Public Works Engineer

Architect

Architects design buildings and other structures, and a strong understanding of structural principles is crucial to their work. This course, focused on structural engineering for the FE Civil Exam, introduces the behaviors of beams, columns, and frames. The course will give an Architect a better understanding of loads, deflections, and design considerations as it covers structural design of steel and reinforced concrete components. An architect will benefit from this rigorous treatment of structural concepts, especially on relevant international codes.

See salaries and explore the career path for Architect

Project Engineer

Project Engineers manage and coordinate technical aspects of engineering projects. This course on structural engineering fundamentals is well-suited to provide a basis for understanding structural aspects, such as the behavior of beams, frames, and trusses. Also, the course covers structural design of both steel and concrete components, which an engineer working on a project needs to know. The course’s focus on design codes and structural behavior helps a Project Engineer appreciate the underlying structural factors, enabling better communication and decision making. This course may prove helpful for a project engineer as it provides a strong basis for understanding.

See salaries and explore the career path for Project Engineer

Construction Manager

A Construction Manager oversees construction projects, working closely with engineers and contractors. Understanding structural engineering is helpful in this role. The topics covered in this course, such as structural analysis and design, including the analysis of beams and columns, helps a construction manager understand the engineering challenges at hand. The course’s focus on real-world scenarios provides a practical understanding of how structures behave under different loads, which is valuable for a Construction Manager overseeing on-site operations. This course may prove helpful in this role.

See salaries and explore the career path for Construction Manager

Transportation Engineer

Transportation Engineers plan and design infrastructure such as roads and railways. While this role has a broader focus, this course's structural engineering content may be helpful. The course’s emphasis on structural analysis, particularly of beams, columns, and frames, may give a Transportation Engineer more context in their work. Learning about load calculations would also give these engineers a basis for understanding how these transportation structures perform. This course may help a Transportation Engineer have a better grasp of design principles.

See salaries and explore the career path for Transportation Engineer

Materials Engineer

Materials Engineers develop and test materials used in construction and manufacturing. While a Materials Engineer has a different focus, this course gives them a deeper understanding of how these materials are employed in structural applications. By learning about structural design and loads, a Materials Engineer can better appreciate the performance demands of materials used in load bearing applications. Though the coursework may not address all topics relevant to a Materials Engineer, the course's emphasis on design may be helpful to those seeking a broad understanding and context.

See salaries and explore the career path for Materials Engineer

University Professor

A University Professor of Engineering teaches courses in civil or structural engineering. This course provides an overview on structural engineering that might be beneficial for a professor who teaches these topics. The course's emphasis on the structural design of concrete and steel components, as well as deflection and load calculations, could be useful for a professor who desires a broad understanding. This course focuses on basic principles and may be useful for a professor.

See salaries and explore the career path for University Professor

Geotechnical Engineer

A Geotechnical Engineer analyzes soil and rock conditions to provide recommendations for foundations and structures. Though this course focuses on structural components, it may still be relevant since a Geotechnical Engineer must understand how loads transfer from a structure to the ground. The course's coverage of structural analysis and design may give a Geotechnical Engineer more context as to a structure's response to loads. As the course also includes content relevant to loads combinations and design, it may be useful for this role.

See salaries and explore the career path for Geotechnical Engineer

Technical Sales Engineer

Technical Sales Engineers sell technical products and services, often to engineering firms or construction companies. Though this course focuses on the technical aspects of structural engineering, it may help the sales engineer more effectively communicate the value that their products and services deliver. By learning about structural analysis, loads, and design practices, a Technical Sales Engineer can better serve their clients. This course will provide more context and understanding to a technical sales engineer.

See salaries and explore the career path for Technical Sales Engineer

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Fundamentals of Structural Engineering - FE Civil Exam.

Structural Analysis

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Provides a comprehensive overview of structural analysis principles and methods. It widely used textbook in structural engineering courses. Reviewing this book will help solidify your understanding of the concepts covered in the course. It provides numerous examples and practice problems to reinforce learning.

Design of Reinforced Concrete, 10th Edition

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Standard reference for reinforced concrete design. It covers the design of beams, columns, and other reinforced concrete elements. It is helpful for understanding the ACI code requirements. This book provides a more in-depth look at reinforced concrete design than the course alone.

Design of Reinforced Concrete, 10th Edition

Kindle Edition

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Fundamentals of Structural Engineering - FE Civil Exam

What's inside

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Activities

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Reading list

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