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Mastering Statics

Approx. 21 hours to complete

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Course Summary

Mastering Statics is a comprehensive course that aims to provide a deep understanding of the principles and concepts of statics. The course covers both the theory and application of statics in various real-world scenarios.

Key Learning Points

Learn the fundamentals of statics and its applications in real-world scenarios
Gain knowledge about vectors, forces, and moments
Understand the equilibrium of rigid bodies and structures

Learning Outcomes

Develop a strong foundation in the principles and concepts of statics
Apply statics knowledge to real-world scenarios
Understand the equilibrium of rigid bodies and structures

Prerequisites or good to have knowledge before taking this course

Basic knowledge of algebra and calculus
Familiarity with vectors and their properties

Course Difficulty Level

Intermediate

Course Format

Online
Self-paced

Similar Courses

Advanced Statics and Mechanics
Structural Analysis and Design

Related Education Paths

Notable People in This Field

Elon Musk
Bill Gates

Related Books

Description

Course Overview: https://www.youtube.com/watch?v=sdom7zBIfkE

Statics is the most fundamental course in Mechanics. In this course, you will learn the conditions under which an object or a structure subjected to time-invariant (static) forces is in equilibrium - i.e. the conditions under which it remains stationary or moves with a constant velocity-. You will also learn how to calculate the reaction forces as well as the internal forces experienced throughout the structure so that later you can properly design and size the foundation and the members of the structure to assure the structure’s safety and serviceability. This course is suitable for learners with interest in different Engineering disciplines such as civil engineering, architecture, mechanical engineering, aerospace. Non engineering disciplines may also find the course very useful, from archaeologist who are concerned about the stability of their excavation sites to dentists interested in understanding the forces transmitted through dental bridges, to orthopedic surgeons concerned about the forces transmitted through the spine, or a hip or knee joint. The content will be primarily delivered using light board. Prof. Katafygiotis is going to write and sketch with color markers directly on the board while facing you. You will have an exciting and interactive learning experience online!

Outline

Understanding Forces and Moments
Course Overview
1-0 Introduction to Mechanics
1-1 Brief Introduction of Vectors
1-2 Basic Operations of Vectors: Vector Addition
1-3 Vector Addition: Triangle Rules
1-4 Cartesian Components (2D)
1-5 Cartesian Components (3D)
1-6 Decomposition of a Force into its Cartesian Components
1-7 Example: Cartesian Components
1-8 Introduction to Dot Product
1-9 Dot Product: Cartesian Components
1-10 Example: Dot Product
1-11 Introduction to Cross Product
1-12 Cross Product: Cartesian Components
1-13 Application of Cross Product: Calculating Area
1-14 Application of Cross Product: Moment of a Force
1-15 Example: Moment of a Force
1-16 Couple of Forces
1-17 Vector Operation: Mix or Triple (Scalar) Product
1-18 Application of Mix Product: Moment of a Force about an Axis
1-19 Example: Moment of a Force about an Axis
Grading Criteria
Quiz 1

Equivalent Systems of Forces and Equilibrium
2-1 Equivalent Systems of Forces
2-2 Simplified Equivalent System
2-3 Example: Simplified Equivalent System of Forces in 2D
2-4 Equilibrium of a Rigid Body
2-5 Reactions at Different Supports
2-6 Example: Calculating Reactions
2-7 Equilibrium of a System of Rigid Bodies
2-8 Example: Equilibrium of a System of Two Rigid Bodies
2.9 2-Force Members
2.10 Example: 2-Force Members
2-11 3-Force members (Optional)
Quiz 2

Stability and Static Determinacy
3-1 Stability - Static Point of View
3-2 Example: Static Determinacy
3-3 Example: Static Indeterminacy
3-4 Kinematic Considerations - Rigid Body Motion
3-5 Kinematic considerations - Infinitesimal Motions
3-6 Stability - Kinematic Approach
3-7 Kinematic considerations - Multiple rigid bodies
3.8 Stability - Kinematic approach for Multiple Rigid Bodies, Part 1
3.9 Stability - Kinematic approach for Multiple Rigid Bodies, Part 2
Quiz 3

Trusses
4-1 Introduction to Trusses
4-2 Simple Trusses
4-3 Compound Trusses
4-4 Complex Trusses
4-5 Introduction to Method of Joints
4-6 Example: Method of Joints for Simple Trusses
4-7 Illustration: Method of Joints for Complex and Compound Trusses
4-8 Introduction to Method of Sections
4-9 Illustration: Computer-aided Analysis of Trusses
Quiz 4

Area properties and Moments of Inertia
5.1 Area and Centroid
5.2 Area and Centroid Examples
5.3 Example of a Half Circle
5.4 Example of Composite Areas
5.5 Distributed Loading
5.6 Example 1: Distributed Loading
5.7 Example 2: Distributed Loading
5.8 The First Theorem of Pappus-Guldiness
5.9 The Second Theorem of Pappus-Guldiness
5.10 Moments of Inertia - Part 1
5.11 Moments of Inertia - Part 2
5.12 Product Moment of Inertia
5.13 Radius of Gyration and Polar Moment of Inertia
5.14 Moments of inertia for Simple Geometric Shapes
5.15 Parallel Axis Theorem
5.16 Example: Moments of Inertia for a Combined Shape using Parallel Axis Theorem
5.17 Example: Proper Application of Parallel Axis Theorem for Shifted Axis
5.18 Transformation due to Rotated Axes
5.19 Moment of Inertia with respect to Rotated Axes
5.20 Mohr's circle
5.21 Example 1: Application of Mohr's Circle for Calculating Moments of Inertia with respect to Rotated Axes
5.22 Example 2: Special Cases regarding Mohr's Circle
Quiz 5

Internal Force Diagrams
6-1 Introduction to Internal Forces
6-2 Sign Convention of Internal Forces
6-3 Understanding Axial Force
6-4 Understanding Shear Force
6-5 Understanding Bending Moments
6-6 Sign convention: A critical review
6-7 Introduction to Axial, Shear and Bending Moment Diagram
6-8 Rules of Shear Force Diagram (Part 1)
6-9 Rules of Shear Force Diagram (Part 2)
6-10 Rules of Shear Force Diagram (Part 3)
6-11 Rules of Axial Force Diagram
6-12 Example: Axial Force Diagram
6-13 Rules of Bending Moment Diagram
6-14 Example: Bending Moment Diagram
6-15 Example 2: Bending Moment Diagram
Please proceed to Module 7

Static Analysis of a Structure
7-1 Analyzing Joints in Frames based on Internal Forces Diagrams
7-2 Stability and Reaction of the structure
7-3 Axial Force Diagram
7-4 Shear Force Diagram
7-5 Bending Moment Diagram
7-6 Summary: Major Steps of performing Static Analysis of a structure
7-7 Remarks
7-8 Example: Drawing Bending Moment Diagram using Fast Track Approach
7-9 Reactions and Force Decomposition
7-10 Axial Force, Shear Force and Bending Moment Diagrams
Please rate this course!
Quiz 6
Post Course Survey

Summary of User Reviews

Mastering Statics course on Coursera has received positive reviews from many users. The course is highly recommended for students looking to deepen their knowledge of Statics, with a focus on applied problem-solving. Many users have praised the course's clear and concise explanations of complex topics.

Key Aspect Users Liked About This Course

Clear and concise explanations of complex topics.

Pros from User Reviews

In-depth coverage of Statics topics
Real-world examples and applications
Engaging and interactive course content
Excellent instructor support and feedback
Great value for money

Cons from User Reviews

Can be challenging for beginners
Lack of hands-on projects or assignments
Some technical issues with the platform
Limited interaction with other students
Not suitable for students looking for a broad overview of engineering topics

Recommended for you

Mastering Statics

Course Overview: https://www. youtube. com/watch? v=sdom7zBIfkE Statics is the most fundamental course in Mechanics. e. the conditions under which it remains stationary or moves with a constant velocity-....

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