Finite Element Analysis Convergence and Mesh Independence from Coursera

In this hands-on project, you will learn about the Finite Element Method (FEM) and perform a convergence study using the cloud-based simulation tool SimScale. We will set up a simple simulation case with a provided geometry to learn the fundamentals of the Finite Element Method and how a convergence study is approached in the first place. We will walk through the classical three step process of every simulation which includes the pre-processing, processing and post-processing step.

SimScale is an engineering simulation platform that is revolutionizing the way engineers, designers, scientists, and students design products. The SimScale platform is accessible completely via a standard web browser, with an easy-to-use interface which supports numerous simulation types including solid mechanics (FEM), fluid dynamics (CFD) & thermodynamics.

This course runs on Coursera's hands-on project platform called Rhyme. On Rhyme, you do projects in a hands-on manner in your browser. You will get instant access to pre-configured cloud desktops containing all of the software and data you need for the project, for this project you need no special setup or any data. Everything is already set up directly in your internet browser so you can just focus on learning!

Notes:

- This course works best for learners who are based in the North America region. We’re currently working on providing the same experience in other regions.

What's inside

Syllabus

Module 1

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Teaches the Finite Element Method, which is standard in engineering

Taught by Jousef Murad, who is recognized for their work in engineering simulation

Develops engineering simulation skills, which are core for engineers

Takes a hands-on approach, which is helpful for learners new to engineering simulation

Provides access to SimScale, an industry-standard engineering simulation platform

Requires an understanding of basic engineering principles

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 Finite Element Analysis Convergence and Mesh Independence with these activities:

Reach Out to Experts in the Field

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Finding mentors can provide you with valuable guidance and support throughout your learning journey.

Browse courses on SimScale

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Identify experts in the field through online platforms, professional organizations, or research papers.
Reach out to them and request guidance or mentorship.

Create a Resource Compilation on FEM and SimScale

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Creating a resource compilation will help you organize and expand your knowledge on the subject.

Browse courses on SimScale

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Gather resources such as tutorials, articles, and videos on finite element method and SimScale.
Organize the resources into a document or online platform for easy access.

Review Notes and Past Assignments

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Refreshing your memory on these concepts will help you understand the course material more easily.

Browse courses on SimScale

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Review your notes from previous courses or online resources on finite element method.
Go through past assignments and practice problems to refresh your understanding.

Four other activities

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Practice FEM Using Online Tutorials

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Practicing with tutorials will help you apply the concepts you learn in the course.

Browse courses on SimScale

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Find online tutorials on finite element method and convergence study.
Follow the tutorials and complete the exercises to practice the concepts.

Solve Practice Problems on Convergence Study

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Solving practice problems will help you reinforce your understanding of convergence study.

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Find practice problems on convergence study from textbooks or online resources.
Solve the problems and check your answers to identify areas where you need more practice.

Develop a Simulation Model in SimScale

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Creating a simulation model will help you apply the skills you learn in the course to a practical project.

Browse courses on SimScale

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Choose a simple engineering problem to simulate.
Create a geometry for the problem in SimScale.
Define the material properties and boundary conditions.
Run the simulation and analyze the results.

Answer Questions in Online Forums

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Mentoring others will help you reinforce your understanding of the concepts and improve your communication skills.

Browse courses on SimScale

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Find online forums or communities related to finite element method and SimScale.
Participate in discussions and answer questions from other users.

Career center

Learners who complete Finite Element Analysis Convergence and Mesh Independence will develop knowledge and skills that may be useful to these careers:

Finite Element Analyst

Finite Element Analysts use the Finite Element Method to simulate the behavior of physical systems. This course will teach Finite Element Analysts the fundamentals of the Finite Element Method, enabling them to build accurate simulations. It will also help them develop the skills they need to use the Finite Element Method effectively to solve real-world problems.

See salaries and explore the career path for Finite Element Analyst

Simulation Engineer

Simulation Engineers use software to model and simulate the behavior of physical systems. This course will give Simulation Engineers a foundation of the Finite Element Method, which they will use to create accurate simulations. This course will teach Simulation Engineers how to modify their simulations to improve accuracy, helping them develop high-quality simulations that can improve products and processes.

See salaries and explore the career path for Simulation Engineer

Mechanical Engineer

Mechanical Engineers design, build, and test mechanical systems. The Finite Element Method is a key tool for Mechanical Engineers, as it allows them to simulate the behavior of these systems before they are built. This course will give Mechanical Engineers a foundation in the Finite Element Method, enabling them to analyze and design mechanical systems effectively.

See salaries and explore the career path for Mechanical Engineer

Civil Engineer

Civil Engineers design and build infrastructure projects such as roads, bridges, and buildings. The Finite Element Method is a key tool for Civil Engineers, as it allows them to simulate the behavior of these structures before they are built. This course will give Civil Engineers a foundation in the Finite Element Method, enabling them to analyze and design infrastructure projects more effectively.

See salaries and explore the career path for Civil Engineer

Aerospace Engineer

Aerospace Engineers design and build aircraft, spacecraft, and satellites. The Finite Element Method is a key tool for Aerospace Engineers, as it allows them to simulate the behavior of these vehicles before they are built. This course will give Aerospace Engineers a foundation in the Finite Element Method, enabling them to analyze and design aircraft, spacecraft, and satellites more effectively.

See salaries and explore the career path for Aerospace Engineer

Design Engineer

Design Engineers use software and engineering principles to create new products. The Finite Element Method is a valuable tool for Design Engineers, as it allows them to simulate the behavior of a product before it is built. This course will help Design Engineers build a foundation in the Finite Element Method. By taking this course, Design Engineers will be able to improve their designs and reduce the risk of product failures.

See salaries and explore the career path for Design Engineer

Structural Engineer

Structural Engineers design and analyze structures such as bridges, buildings, and dams. This course will give Structural Engineers a foundation in the Finite Element Method, the key tool they use to analyze the behavior of structures. By taking this course, Structural Engineers will be able to analyze structures more accurately and efficiently.

See salaries and explore the career path for Structural Engineer

Automotive Engineer

Automotive Engineers design and build cars and trucks. The Finite Element Method is a key tool for Automotive Engineers, as it allows them to simulate the behavior of these vehicles before they are built. This course will give Automotive Engineers a foundation in the Finite Element Method, enabling them to analyze and design cars and trucks more effectively.

See salaries and explore the career path for Automotive Engineer

Product Engineer

Product Engineers integrate engineering design principles with business principles to develop and launch new products. The Finite Element Method is an important tool for Product Engineers, as it allows them to simulate the behavior of a product before it is built. This course will help Product Engineers develop the skills they need to use the Finite Element Method effectively. By taking this course, Product Engineers will be able to improve their designs and reduce the risk of product failures.

See salaries and explore the career path for Product Engineer

Materials Engineer

Materials Engineers research and develop new materials. The Finite Element Method can be used to simulate the behavior of materials, helping Materials Engineers to understand and improve their properties. This course will give Materials Engineers a foundation in the Finite Element Method, enabling them to use it effectively in their work.

See salaries and explore the career path for Materials Engineer

Nuclear Engineer

Nuclear Engineers design and build nuclear reactors and other nuclear facilities. The Finite Element Method is a key tool for Nuclear Engineers, as it allows them to simulate the behavior of these facilities before they are built. This course will give Nuclear Engineers a foundation in the Finite Element Method, enabling them to analyze and design nuclear facilities more effectively.

See salaries and explore the career path for Nuclear Engineer

Geotechnical Engineer

Geotechnical Engineers design and analyze structures in the ground, such as foundations and tunnels. The Finite Element Method is a powerful tool for Geotechnical Engineers, as it allows them to simulate the behavior of soil and rock. This course will give Geotechnical Engineers a foundation in the Finite Element Method, enabling them to analyze and design structures in the ground more effectively.

See salaries and explore the career path for Geotechnical Engineer

Biomedical Engineer

Biomedical Engineers design and build medical devices and implants. The Finite Element Method is a key tool for Biomedical Engineers, as it allows them to simulate the behavior of these devices and implants before they are used in patients. This course will give Biomedical Engineers a foundation in the Finite Element Method, enabling them to analyze and design medical devices and implants more effectively.

See salaries and explore the career path for Biomedical Engineer

CFD Engineer

CFD Engineers use computational fluid dynamics (CFD) software to simulate the flow of fluids. The Finite Element Method is closely related to CFD, and this course will help CFD Engineers build a foundation in the Finite Element Method. By taking this course, CFD Engineers will become more effective at using CFD software to simulate complex fluid flow problems.

See salaries and explore the career path for CFD Engineer

Process Engineer

Process Engineers design and optimize manufacturing processes. The Finite Element Method can be used to simulate these processes, helping Process Engineers to identify and eliminate inefficiencies. This course will give Process Engineers a foundation in the Finite Element Method, enabling them to use it effectively in their work.

See salaries and explore the career path for Process Engineer

Finite Element Analysis Convergence and Mesh Independence

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