Published On Jan 9, 2020
📈 APEX Consulting: https://theapexconsulting.com
🌎 Website: http://jousefmurad.com
In this first video, I will give you a crisp intro to the Finite Element Method! If you want to jump right to the theoretical part, timestamps are in the description! :)
📋 PDF of the presentation: / introduction-to-33013510
ONLINE PRESENCE
================
🌍 My website - http://jousefmurad.com/
💌 My weekly science newsletter - https://jousef.substack.com/
📸 Instagram - / jousefmrd
🐦 Twitter - / jousefm2
SUPPORT MY WORK
=================
👕 Science Merch: https://engineered-mind.creator-sprin...
👉 Become my Patreon: / theengiineer
🧠 Subscribe for more free videos: https://bit.ly/2RLmMxq
RECOMMENDATIONS
==================
🎥 1 Month Free of Skillshare Premium: https://bit.ly/3E3bXwC
📕 Books on AI, Data Science & Programming: https://bit.ly/2I1lUD1 - use "podengineered20" to get a 40% discount!
🎵 Mahmut Orhan - Game Of Thrones (Original Mix)
––––––––––––––––––––––––––––––
As a member of SimScale, some pictures in this video have been used from the SimScale platform. SimScale is the world’s first production-ready SaaS application for engineering simulation, completely cloud-based and easily accessible through a web browser. Try CFD and FEA now by creating a free Community account in minutes: https://bit.ly/316Aqgt
Contact:
If you need help or have any questions or want to collaborate feel free to reach out to me via email: [email protected]
#FEM
#FiniteElementMethod
#Engineering
Time Stamps
----------------------
0:00 - 0:12 : Intro
0:13 - 0:36 : Agenda
0:37 - 4:40 : History of the FEM
4:41 - 5:41 : What is the FEM?
5:42 - 6:12 : Why do we use FEM?
6:13 - 6:43 : How does the FEM help?
6:44 - 9:14 : Divide & Conquer Approach
9:15- 9:26 : 1-D Axially Loaded Bar
9:27 - 13:24 : Derivation of the Stiffness Matrix [K]
13:25 - 14:09 : Global Assembly
14:10 - 14:44 : Dirichlet Boundary Condition
14:45 - 15:00 : Neumann Boundary Condition
15:01 - 16:12 : Element Types
16:13 - 16:33 : Dirichlet Boundary Condition
16:34 - 16:46 : Neumann Boundary Condition
16:47 - 17:06 : Robin Boundary Condition
17:07 - 18:13 : Boundary Conditions - Physics
18:14 - End : Outlook & Outro
