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Introduction to Advanced Vibrations
Explore advanced concepts in vibration analysis, including multiple degree of freedom systems, string and beam vibrations, and modal analysis.
Explore advanced concepts in vibration analysis, including multiple degree of freedom systems, string and beam vibrations, and modal analysis.
This course provides an in-depth study of advanced vibration concepts, building upon fundamental knowledge of single and double degree of freedom systems. It covers multiple degrees of freedom systems, introducing students to the vibrations of strings and beams. The curriculum includes topics such as equations of motion, stiffness and flexibility methods, modal analysis, and vibrations of continuous systems. Students will learn to apply these concepts to practical problems in mechanical engineering and related fields. The course emphasizes both theoretical understanding and practical application through lectures, quizzes, and a capstone project.
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What you'll learn
Understand and apply concepts of multiple degree of freedom vibration systems
Analyze vibrations in strings and beams using advanced mathematical models
Master modal analysis techniques for complex vibration systems
Apply stiffness and flexibility methods to solve vibration problems
Explore vibrations in continuous systems and their practical applications
Develop skills in mathematical modeling of advanced vibration scenarios
Skills you'll gain
This course includes:
174 Minutes PreRecorded video
4 assignments
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FullTime access
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There are 6 modules in this course
This course offers a comprehensive exploration of advanced vibration concepts, building upon fundamental knowledge of single and double degree of freedom systems. It covers six key modules: Introduction, Vibrations of Linear Multiple-degree-of-freedom Systems (in two parts), Vibrations of Continuous Systems (focusing on strings and beams), and a Capstone Project. Students will learn about equations of motion, stiffness and flexibility methods, modal analysis, and the vibrations of strings and beams. The curriculum emphasizes both theoretical understanding and practical application, preparing students to analyze and solve complex vibration problems in mechanical engineering and related fields. Through a combination of video lectures, quizzes, and a hands-on project, learners will develop advanced skills in vibration analysis and its real-world applications.
Introduction to Advanced Vibrations
Module 1 · 29 Minutes to complete
Vibrations of Linear Multiple-degree-of-freedom Systems (Part 1)
Module 2 · 1 Hours to complete
Vibrations of Linear Multiple-degree-of-freedom Systems (Part 2)
Module 3 · 1 Hours to complete
Vibrations of Continuous Systems: Strings
Module 4 · 1 Hours to complete
Vibrations of Continuous Systems: Beams
Module 5 · 1 Hours to complete
Capstone Project
Module 6 · 8 Hours to complete
Fee Structure
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Instructor
Pioneering Advances in Acoustics and Noise Control
Professor Yang-Hann Kim specializes in acoustics and noise/vibration, utilizing experimental approaches and digital signal processing to drive innovative research. His diverse projects encompass sound field visualization, noise source identification through array microphones, detection and estimation of moving noise sources, and active noise and vibration control. Recently recognized as a pioneer in sound visualization and manipulation, he focuses on creating targeted sound fields, private sound zones, and 3D listening environments. Joining KAIST as an Associate Professor in 1989, he previously served at the Korea Institute of Technology and was a research assistant at MIT while earning his Ph.D. in mechanical engineering. With over 100 published papers and numerous awards, including the Rossing Prize from the Acoustical Society of America, Professor Kim is also a Fellow of the Acoustical Society of America and serves on various editorial boards, further solidifying his impact in the field of acoustics.
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