Reinforced Concrete II: Design of Beams from Udemy

knowledge of Reinforced Concrete derivations is essential for this course.

In the previous course, you have been introduced to the philosophy of Reinforced Concrete Design. This course 'Design of Reinforced Concrete Beam' gives you detailed understanding, explanations and procedures for the design of RC Beams.

What to expect from this course:

After completion of this course, you are expected to be able to design: the two types of rectangular Beams (singly and doubly reinforced), and T-Beams. In addition, you will be able to design the shear reinforcement for beams.

What are exactly the points covered in this course:

This course focuses on the following concepts:

Philosophy and Design of Singly Reinforced Beams
Philosophy and Design of Doubly Reinforced Beams
Philosophy and Design of T-Beams
Types of Cracks and how to resist them using the appropriate Types of reinforcement
Philosophy and Design of Shear Reinforcement

Students completing the course will have full understanding of the design of Rectangular and T- Beams. In addition, students will be able to design these beams given the service loads. Quizzes will be added on demand.

What's inside

Learning objectives

Design singly reinforced beams and understand the philosophy of design
Design doubly reinforced beams

Design t-beams
Design the shear reinforcement for beams

Design singly reinforced beams and understand the philosophy of design
Design doubly reinforced beams
Design t-beams
Design the shear reinforcement for beams

Syllabus

Introduction

This is an introduction to the whole concrete series. If you have not taken the first course, I advise you to take it. This course is about detailed design of RC Beams.

In this lecture, I have explained the meaning of single reinforcement and when it is encountered.

Design philosophy and example part 1 for the singly reinforced beams.

Design philosophy and example part 2 for the singly reinforced beams.

Design philosophy and example part 1 for the doubly reinforced beams.

Design philosophy and example part 2 for the doubly reinforced beams.

Explanations of procedure for designing T Beams.

Explanations of types of cracks and how to resist them using reinforcement. Explanations of types of reinforcement and introducing the philosophy of shear design.

Explanations of types of cracks and how to resist them using
reinforcement. Explanations of types of reinforcement and introducing
the philosophy of shear design.

This short practice test will test you general understanding of the RC Beams Design.

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Teaches philosophy and design of singly reinforced beams

Teaches philosophy and design of doubly reinforced beams

Teaches philosophy and design of T-beams

Teaches philosophy and design of sheer reinforcement for beams

Provides practice test to check the understanding the philosophy of design of RC Beams

Reviews summary

Detailed reinforced concrete beam design

According to learners, this course provides a clear and detailed explanation of reinforced concrete beam design, covering singly, doubly, and T-beams, along with shear reinforcement. Many students found the content highly practical and applicable to their professional work, citing the helpful step-by-step examples as particularly beneficial for solidifying understanding. However, some learners noted that the course assumes significant prior knowledge beyond the prerequisite first course, making it difficult to follow at times for those without a strong foundation. A few reviews also mentioned technical issues with video or audio quality and a lack of practice problems or quizzes to reinforce learning. Overall, it is considered a strong follow-up for those with the necessary background.

Examples aid understanding & application.

"The examples are very helpful and practical."

"I appreciated the detailed examples provided."

"For me, the examples were key to understanding the concepts and applying them."

Explains design procedures well.

"Excellent course! The instructor clearly explains the design philosophy and procedures for different beam types."

"This course is a fantastic resource for understanding how to design RC beams. The explanations are easy to follow..."

"Very practical course. I learned how to actually design beams from this; it's exactly what I needed for work."

Some technical quality problems exist.

"However, the video quality isn't always the best..."

"Poor quality videos and audio. It was hard to hear and see the equations clearly."

Needs more exercises or quizzes.

"The course could benefit from more practice problems."

"It covers the topics but lacks practice quizzes or assignments."

"Just lectures and a final test, which makes it hard to gauge understanding as I go."

Assumes significant prior knowledge.

"I found this course very difficult to follow. The instructor assumes a lot of prior knowledge beyond RC I."

"It assumes you have the basics from RC I down completely."

"The explanations weren't clear enough for me, especially for the derivations."

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 Reinforced Concrete II: Design of Beams with these activities:

Create a digital or physical binder of course materials

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Creating a binder of course materials will help you stay organized and ensure that you have all of the resources you need to succeed in this course.

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Gather all of your course materials, including notes, handouts, and assignments.
Organize the materials into a logical order.
Create a binder or folder to store the materials.

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Career center

Learners who complete Reinforced Concrete II: Design of Beams will develop knowledge and skills that may be useful to these careers:

Structural Designer

A Structural Designer designs and analyzes the structural components of buildings and other structures. This course may provide a strong foundation in the design of reinforced concrete beams, which is essential for structural designers.

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Professor

A Professor teaches and conducts research at a college or university. This course may be helpful in gaining knowledge of the design and construction of reinforced concrete beams, which can be useful for professors teaching civil engineering or structural engineering courses.

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Structural Engineer

A Structural Engineer is responsible for designing and analyzing the structural integrity of buildings, bridges, and other structures. This course can help prepare learners for the design of reinforced concrete beams, which are commonly used in structural engineering projects.

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Materials Engineer

A Materials Engineer researches and develops new materials and improves existing ones. This course may provide knowledge of the properties and behavior of reinforced concrete, which can be useful for materials engineers involved in the development and improvement of concrete materials.

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Concrete Technician

A Concrete Technician tests and analyzes concrete materials and structures. This course may provide knowledge of the design and properties of reinforced concrete beams, which can be useful for concrete technicians involved in the testing and analysis of these structural elements.

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Forensic Engineer

A Forensic Engineer investigates the causes of failures and accidents. This course may provide knowledge in the design and construction of reinforced concrete beams, which can be useful for forensic engineers involved in the investigation of structural failures.

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Research Scientist

A Research Scientist conducts research in various scientific fields. This course may provide knowledge in the design and properties of reinforced concrete beams, which can be useful for research scientists involved in the development of new concrete materials and construction techniques.

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Civil Engineer

A Civil Engineer designs and oversees the construction of roads, bridges, dams, and other infrastructure projects. This course may help build a foundation for understanding the design and construction of reinforced concrete beams, which are commonly used in civil engineering projects.

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Architect

An Architect designs and plans buildings and other structures. This course may provide an understanding of the design and construction of reinforced concrete beams, which are commonly used in architectural projects.

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Building Inspector

A Building Inspector ensures that buildings comply with building codes and safety regulations. This course may be helpful for understanding the design and construction of reinforced concrete beams, which is important for ensuring the structural integrity of buildings.

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Construction Manager

A Construction Manager oversees the planning, coordination, and execution of construction projects. This course may be helpful for understanding the design and construction of reinforced concrete beams, which are commonly used in construction projects.

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Geotechnical Engineer

A Geotechnical Engineer analyzes and designs foundations and other structures that interact with the ground. This course may provide knowledge in the design and construction of reinforced concrete beams, which are commonly used in geotechnical engineering projects.

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Transportation Engineer

A Transportation Engineer designs and manages transportation systems, including roads, bridges, and railways. This course may provide knowledge in the design and construction of reinforced concrete beams, which are commonly used in transportation infrastructure projects.

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Environmental Engineer

An Environmental Engineer designs and implements solutions to environmental problems. This course may provide knowledge in the design and construction of reinforced concrete beams, which can be useful for environmental engineers involved in the design of sustainable infrastructure projects.

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Project Manager

A Project Manager is responsible for planning, organizing, and managing projects. This course may provide insights into the design and construction of reinforced concrete beams, which can be useful for managing construction projects involving these structural elements.

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