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Jousef Murad

In this hands-on project, you will learn about the Finite Element Method (FEM) and validate a simulation case 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 validation case 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.

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In this hands-on project, you will learn about the Finite Element Method (FEM) and validate a simulation case 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 validation case 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.

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What's inside

Syllabus

Project Overview
Here you will describe what the project is about. It should give an overview of what the learner will achieve by completing this project.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
SimScale is a user-friendly platform for engineers, designers, scientists, and students to conduct simulations with ease
This project-based course provides hands-on experience with the Finite Element Method (FEM) and simulation validation techniques
The course is well-suited for learners based in the North America region, with plans to expand accessibility
Rhyme's pre-configured cloud desktops eliminate the need for special software setups, allowing learners to focus on learning

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Reviews summary

Simscale for engineering simulations - fea course review

According to students, SimScale for Engineering Simulations - FEA for Beginners is a beginner-friendly course that provides useful content to help learners get started with FEA. Students recommend this course for beginners interested in engineering simulations.

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 SimScale for Engineering Simulations - FEA for Beginners with these activities:
Finite Element Method Refresher
Refresh your understanding of the core concepts of FEM before the course begins, ensuring a strong foundation for your learning journey.
Browse courses on Finite Element Method
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  • Review key principles of FEM
  • Solve practice problems on fundamental concepts
The Finite Element Method: Theory and Applications
Deepen your understanding by delving into a comprehensive reference book on FEM, reinforcing the theoretical foundations of the course content.
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  • Review key chapters relevant to the course
  • Work through practice problems and examples
SimScale Tutorial
Build a foundational understanding of SimScale and its capabilities to enhance your hands-on project experience.
Browse courses on SimScale
Show steps
  • Navigate the SimScale platform
  • Set up a simple simulation case
  • Learn the basics of pre-processing
Five other activities
Expand to see all activities and additional details
Show all eight activities
Finite Element Method Exercises
Strengthen your grasp of FEM concepts through targeted exercises, solidifying your understanding of the theory.
Browse courses on Finite Element Method
Show steps
  • Solve practice problems on FEM principles
  • Analyze real-world simulation scenarios
Project Peer Review
Foster collaboration and exchange insights by sharing your project progress with peers, receiving valuable feedback.
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  • Present your project concept and approach
  • Seek feedback on your simulation setup
Independent Simulation Project
Embark on a self-directed project, applying your acquired knowledge to solve a real-world simulation problem.
Browse courses on Finite Element Method
Show steps
  • Identify a suitable engineering problem
  • Develop your simulation model
  • Analyze your results and draw conclusions
Simulation Report
Demonstrate your understanding by creating a comprehensive report documenting your simulation project, showcasing your analysis and results.
Browse courses on Simulation
Show steps
  • Summarize your project goals and methodology
  • Present your simulation results and findings
  • Draw conclusions and discuss the implications of your findings
Advanced FEM Workshop
Expand your knowledge by attending an advanced workshop focused on specialized FEM techniques, enhancing your understanding beyond the course scope.
Browse courses on Finite Element Method
Show steps
  • Engage with experts and industry professionals
  • Learn about cutting-edge simulation methods

Career center

Learners who complete SimScale for Engineering Simulations - FEA for Beginners will develop knowledge and skills that may be useful to these careers:
Simulation Engineer
**Simulation Engineers** develop and use computer models to simulate the behavior of physical systems. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of physical systems. By completing this course, you will gain the skills and knowledge necessary to succeed as a Simulation Engineer and effectively develop and use computer models to simulate the behavior of physical systems.
Mechanical Engineer
**Mechanical Engineers** design, develop, build, and test mechanical systems. They also oversee the manufacturing of products and ensure that they meet safety standards. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of mechanical systems. By completing this course, you will gain the skills and knowledge necessary to succeed as a Mechanical Engineer and effectively design, test, and manufacture mechanical systems.
Aerospace Engineer
**Aerospace Engineers** design, develop, and test aircraft, spacecraft, and other aerospace vehicles. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of aerospace structures. By completing this course, you will gain the skills and knowledge necessary to succeed as an Aerospace Engineer and effectively design, test, and manufacture aerospace vehicles.
Biomedical Engineer
**Biomedical Engineers** apply engineering principles to the design, development, and testing of medical devices and systems. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of biological systems. By completing this course, you will gain the skills and knowledge necessary to succeed as a Biomedical Engineer and effectively design, test, and manufacture medical devices and systems.
Electrical Engineer
**Electrical Engineers** design, develop, and test electrical systems and devices. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of electrical systems. By completing this course, you will gain the skills and knowledge necessary to succeed as an Electrical Engineer and effectively design, develop, and test electrical systems and devices.
Chemical Engineer
**Chemical Engineers** design, develop, and operate chemical plants and processes. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of chemical processes. By completing this course, you will gain the skills and knowledge necessary to succeed as a Chemical Engineer and effectively design, develop, and operate chemical plants and processes.
Civil Engineer
**Civil Engineers** design, build, and maintain infrastructure projects such as bridges, roads, and buildings. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of civil structures. By completing this course, you will gain the skills and knowledge necessary to succeed as a Civil Engineer and effectively design, build, and maintain infrastructure projects.
Mechatronics Engineer
**Mechatronics Engineers** design, develop, and maintain systems that combine mechanical, electrical, and computer engineering principles. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of mechatronic systems. By completing this course, you will gain the skills and knowledge necessary to succeed as a Mechatronics Engineer and effectively design, develop, and maintain systems that combine mechanical, electrical, and computer engineering principles.
Industrial Engineer
**Industrial Engineers** design, improve, and install integrated systems for managing industrial processes and systems. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of industrial processes and systems. By completing this course, you will gain the skills and knowledge necessary to succeed as an Industrial Engineer and effectively design, improve, and install integrated systems for managing industrial processes and systems.
Materials Engineer
**Materials Engineers** develop, test, and evaluate materials for use in a wide range of applications. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of materials. By completing this course, you will gain the skills and knowledge necessary to succeed as a Materials Engineer and effectively develop, test, and evaluate materials for use in a wide range of applications.
Mining Engineer
**Mining Engineers** design, develop, and operate mines and mining systems. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of mining systems. By completing this course, you will gain the skills and knowledge necessary to succeed as a Mining Engineer and effectively design, develop, and operate mines and mining systems.
Systems Engineer
**Systems Engineers** design, develop, and test complex systems that integrate multiple technologies. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of complex systems. By completing this course, you will gain the skills and knowledge necessary to succeed as a Systems Engineer and effectively design, develop, and test complex systems that integrate multiple technologies.
Nuclear Engineer
**Nuclear Engineers** design, develop, and operate nuclear power plants and nuclear fuel cycle facilities. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of nuclear systems. By completing this course, you will gain the skills and knowledge necessary to succeed as a Nuclear Engineer and effectively design, develop, and operate nuclear power plants and nuclear fuel cycle facilities.
Robotics Engineer
**Robotics Engineers** design, develop, and operate robots. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of robots. By completing this course, you will gain the skills and knowledge necessary to succeed as a Robotics Engineer and effectively design, develop, and operate robots.
Petroleum Engineer
**Petroleum Engineers** design, develop, and operate oil and gas fields. This course provides a strong foundation in the Finite Element Method (FEM), which is a powerful tool for simulating the behavior of oil and gas reservoirs. By completing this course, you will gain the skills and knowledge necessary to succeed as a Petroleum Engineer and effectively design, develop, and operate oil and gas fields.

Reading list

We've selected seven 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 SimScale for Engineering Simulations - FEA for Beginners.
Provides a comprehensive and rigorous treatment of the finite element method for solid and structural mechanics. It is written in a clear and concise style, with numerous examples and exercises. Serves as an in-depth reference for more advanced learners.
Provides a comprehensive and practical introduction to the finite element method. It is written in a clear and concise style, with numerous examples and exercises. Serves as an in-depth reference for more advanced learners.
Provides a comprehensive and practical introduction to the finite element method. It is written in a clear and concise style, with numerous examples and exercises. Serves as an in-depth reference for more advanced learners.
Provides a comprehensive overview of the finite element method and its application to engineering problems. It valuable reference for both beginners and experienced engineers. Serves as a great overview of the concepts covered in the course, including an expansion on the fundamentals of FEM.
Provides a comprehensive and rigorous treatment of the finite element method for engineers. It is written in a clear and concise style, with numerous examples and exercises. Serves as an in-depth reference for more advanced learners.
Provides a comprehensive and rigorous treatment of the finite element method for engineering mechanics. It is written in a clear and concise style, with numerous examples and exercises. Serves as an in-depth reference for more advanced learners.
Provides a practical introduction to the finite element method for mechanical design. It is written in a clear and concise style, with numerous examples and exercises. Serves as a great overview of the concepts covered in the course, including an expansion on the fundamentals of FEM.

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