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Yang-Hann Kim
Introduction to Basic Vibrations starts with the fundamental principle of vibrations with a single and double degree of freedom systems. These fundamental vibration systems provide a solid platform not only to understand general vibrations but also to apply or use them into simple mechanical problems.
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What's inside
Syllabus
Introduction
Vibrations of Linear Single-degree-of-freedom Systems 1: Concepts of resonance, effect of damping
Vibrations of Linear Single-degree-of-freedom Systems 2: Concept of transfer function; stiffness and mass
Read more
Syllabus
Introduction
Vibrations of Linear Single-degree-of-freedom Systems 1: Concepts of resonance, effect of damping
Vibrations of Linear Single-degree-of-freedom Systems 2: Concept of transfer function; stiffness and mass
Read more
Vibrations of Linear Double-degree-of-freedom Systems 1: The relation between mode shape and frequency
Vibrations of Linear Double-degree-of-freedom Systems 2: Vibration observer and control
Good to know
Good to know
Know what's good ,
what to watch for , and
possible dealbreakers
Explores basic vibrations, which is standard in mechanical engineering
Taught by Yang-Hann Kim, who are recognized for their work in vibrations
Develops vibrations of linear single-degree-of-freedom systems, which are core skills for mechanical engineering
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Save Introduction to Basic Vibrations to your list so you can find it easily later:
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Reviews summary
Introduction to vibration mechanical systems
According to students, Introduction to Vibrations is a good course for those new to vibration systems. Learners say that this course is taught clearly and is easy to follow. This course focuses on building a strong foundation of basic concepts, emphasizes connecting the practical side of vibration to physical insights and mathematical equations, and provides engaging assignments that reinforce your learning. The course was well received by learners and is largely positive but may lack in some areas.
Appropriate but Some Typos
"tests were easy to understand and checked our understanding level after each week."
"The quizzes were appropriate for the content"
Visually Appealing, Sometimes Repetitive
"Video lectures are made well."
"Excellent explaination. many basic concept are cleared with thorough explaination."
"The lectures did get a bit repetitive at times"
Accessible, May Require Some Supplementary Work
"Good for beginners."
"Great introductory course to the basics of vibration with physical insights."
"This compels the student to do own work and refer to text books to build on the concepts taught. it is this characteristic that I totally enjoyed."
Expert Instructor
"Excellent professor."
"Excellent course, perfect to review some topics about physics and learn more about them."
"I was very much impressed and exceeds the expectation; the way course was taught using simple and practical teaching aids. In my opinion, he is the best teacher from whom I have learned this course till date."
Provides Physical Insights and Connections to Practical Applications
"the way in which the mathematical description, the physical description, and practical application description were tied together really helped."
"The way of Teaching was incredible and the explanation of the subject was crystal clear."
Clear and Engaging
"Very informative teaching."
"classes were good and can be easily understandable"
"The course was very interactive. I learned basic fundamentals of vibrations, single degree of freedom and two degree of freedom system."
"Really helpful, i learnt a lot"
Basic or Introductory
"It is a good basic course on Vibration."
"Simple but precise introduction to the theory of vibrations."
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 Introduction to Basic Vibrations with these
activities:
Follow the MIT OpenCourseWare Vibrations playlist
Show steps
This playlist provides a comprehensive overview of the fundamental concepts of vibrations. Watching these videos will help you understand the course material more deeply.
Browse courses on
Vibrations
Show steps
-
Watch the first 5 videos in the playlist
-
Take notes on the key concepts covered in each video
Solve practice problems from the textbook
Show steps
Solving practice problems will help you apply the concepts you learn in class and improve your problem-solving skills.
Browse courses on
Vibrations
Show steps
-
Choose 5 practice problems from each chapter
-
Solve the problems and check your answers against the solutions manual
Create a diagram of a vibration system
Show steps
Creating a diagram of a vibration system will help you visualize the concepts you learn in class and improve your understanding of how vibrations work.
Browse courses on
Vibrations
Show steps
-
Choose a vibration system to diagram
-
Draw the system using a software program or by hand
-
Label the different components of the system
Four other activities
Expand to see all activities and additional details
Show all seven activities
Join a study group to discuss the course material
Show steps
Joining a study group will allow you to discuss the course material with other students and get help with any concepts you are struggling with.
Browse courses on
Vibrations
Show steps
-
Find a study group that meets regularly
-
Prepare for each meeting by reading the assigned material and completing any homework assignments
-
Participate in the discussion and ask questions about any concepts you are unsure about
Mentor a student who is struggling with the course material
Show steps
Mentoring a student who is struggling with the course material will help you solidify your understanding of the concepts and improve your communication skills.
Browse courses on
Vibrations
Show steps
-
Find a student who is willing to be mentored
-
Meet with the student regularly to discuss the course material and answer any questions they have
-
Provide feedback on the student's work and help them to improve their understanding of the concepts
Contribute to an open-source vibration simulation project
Show steps
Contributing to an open-source vibration simulation project will allow you to apply the concepts you learn in class and gain experience with real-world vibration analysis.
Browse courses on
Vibrations
Show steps
-
Find an open-source vibration simulation project
-
Read the project documentation and get familiar with the codebase
-
Make a small contribution to the project, such as fixing a bug or adding a new feature
Attend a workshop on vibration analysis
Show steps
Attending a workshop on vibration analysis will allow you to learn from experts in the field and get hands-on experience with vibration analysis techniques.
Browse courses on
Vibrations
Show steps
-
Find a workshop on vibration analysis that is relevant to your interests
-
Register for the workshop and attend all of the sessions
-
Take notes and ask questions during the workshop
Follow the MIT OpenCourseWare Vibrations playlist
Show steps
This playlist provides a comprehensive overview of the fundamental concepts of vibrations. Watching these videos will help you understand the course material more deeply.
Browse courses on
Vibrations
Show steps
Show steps
Show steps
- Watch the first 5 videos in the playlist
- Take notes on the key concepts covered in each video
Solve practice problems from the textbook
Show steps
Solving practice problems will help you apply the concepts you learn in class and improve your problem-solving skills.
Browse courses on
Vibrations
Show steps
Show steps
Show steps
- Choose 5 practice problems from each chapter
- Solve the problems and check your answers against the solutions manual
Create a diagram of a vibration system
Show steps
Creating a diagram of a vibration system will help you visualize the concepts you learn in class and improve your understanding of how vibrations work.
Browse courses on
Vibrations
Show steps
Show steps
Show steps
- Choose a vibration system to diagram
- Draw the system using a software program or by hand
- Label the different components of the system
Four other activities
Expand to see all activities and additional details
Show all seven activities
Join a study group to discuss the course material
Show steps
Joining a study group will allow you to discuss the course material with other students and get help with any concepts you are struggling with.
Browse courses on
Vibrations
Show steps
Show steps
Show steps
- Find a study group that meets regularly
- Prepare for each meeting by reading the assigned material and completing any homework assignments
- Participate in the discussion and ask questions about any concepts you are unsure about
Mentor a student who is struggling with the course material
Show steps
Mentoring a student who is struggling with the course material will help you solidify your understanding of the concepts and improve your communication skills.
Browse courses on
Vibrations
Show steps
Show steps
Show steps
- Find a student who is willing to be mentored
- Meet with the student regularly to discuss the course material and answer any questions they have
- Provide feedback on the student's work and help them to improve their understanding of the concepts
Contribute to an open-source vibration simulation project
Show steps
Contributing to an open-source vibration simulation project will allow you to apply the concepts you learn in class and gain experience with real-world vibration analysis.
Browse courses on
Vibrations
Show steps
Show steps
Show steps
- Find an open-source vibration simulation project
- Read the project documentation and get familiar with the codebase
- Make a small contribution to the project, such as fixing a bug or adding a new feature
Attend a workshop on vibration analysis
Show steps
Attending a workshop on vibration analysis will allow you to learn from experts in the field and get hands-on experience with vibration analysis techniques.
Browse courses on
Vibrations
Show steps
Show steps
Show steps
- Find a workshop on vibration analysis that is relevant to your interests
- Register for the workshop and attend all of the sessions
- Take notes and ask questions during the workshop
Career center
Learners who complete Introduction to Basic Vibrations will develop knowledge and skills
that may be useful to these careers:
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design, develop, build, and test mechanical and thermal devices, including tools, engines, and machines. This course, Introduction to Basic Vibrations, may be useful for Mechanical Engineers because it covers the fundamental principles of vibrations, which are important for understanding how mechanical systems behave. The course also covers the concepts of resonance and damping, which are important for designing systems that are resistant to vibration.
Materials Scientist
Materials Scientist
Materials Scientists develop new materials and improve existing ones. This course, Introduction to Basic Vibrations, may be useful for Materials Scientists because it covers the fundamental principles of vibrations, which are important for understanding how materials behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for developing materials that are resistant to vibration.
Chemical Engineer
Chemical Engineer
Chemical Engineers design, develop, and operate chemical plants and other industrial facilities. This course, Introduction to Basic Vibrations, may be useful for Chemical Engineers because it covers the fundamental principles of vibrations, which are important for understanding how chemical plants and other industrial facilities behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing chemical plants and other industrial facilities that are resistant to vibration.
Petroleum Engineer
Petroleum Engineer
Petroleum Engineers design, develop, and operate oil and gas fields. This course, Introduction to Basic Vibrations, may be useful for Petroleum Engineers because it covers the fundamental principles of vibrations, which are important for understanding how oil and gas fields behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing oil and gas fields that are resistant to vibration.
Biomedical Engineer
Biomedical Engineer
Biomedical Engineers design and develop medical devices and systems. This course, Introduction to Basic Vibrations, may be useful for Biomedical Engineers because it covers the fundamental principles of vibrations, which are important for understanding how medical devices and systems behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing medical devices and systems that are resistant to vibration.
Civil Engineer
Civil Engineer
Civil Engineers design, build, and maintain infrastructure, such as roads, bridges, and buildings. This course, Introduction to Basic Vibrations, may be useful for Civil Engineers because it covers the fundamental principles of vibrations, which are important for understanding how structures behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing structures that are resistant to vibration. This course may be particularly relevant for Civil Engineers who work on the design of bridges or other structures that are subject to dynamic loads.
Nuclear Engineer
Nuclear Engineer
Nuclear Engineers design, develop, and operate nuclear power plants and other nuclear facilities. This course, Introduction to Basic Vibrations, may be useful for Nuclear Engineers because it covers the fundamental principles of vibrations, which are important for understanding how nuclear power plants and other nuclear facilities behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing nuclear power plants and other nuclear facilities that are resistant to vibration.
Aerospace Engineer
Aerospace Engineer
Aerospace Engineers design, develop, and test aircraft, spacecraft, and other aerospace vehicles. This course, Introduction to Basic Vibrations, may be useful for Aerospace Engineers because it covers the fundamental principles of vibrations, which are important for understanding how aerospace vehicles behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing aerospace vehicles that are resistant to vibration. This course may be particularly relevant for Aerospace Engineers who work on the design of aircraft or spacecraft that are subject to dynamic loads.
Electrical Engineer
Electrical Engineer
Electrical Engineers design, develop, and test electrical and electronic devices and systems. This course, Introduction to Basic Vibrations, may be useful for Electrical Engineers because it covers the fundamental principles of vibrations, which are important for understanding how electrical and electronic devices and systems behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing electrical and electronic devices and systems that are resistant to vibration.
Industrial Engineer
Industrial Engineer
Industrial Engineers design, develop, and implement integrated systems that improve productivity and efficiency. This course, Introduction to Basic Vibrations, may be useful for Industrial Engineers because it covers the fundamental principles of vibrations, which are important for understanding how industrial systems behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing industrial systems that are resistant to vibration.
Acoustical Engineer
Acoustical Engineer
Acoustical Engineers design and develop products and systems to control sound and vibration. This course, Introduction to Basic Vibrations, may be useful for Acoustical Engineers because it covers the fundamental principles of vibrations, which are important for understanding how sound and vibration behave. The course also covers the concepts of resonance and damping, which are important for designing products and systems that are resistant to vibration.
Physicist
Physicist
Physicists study the fundamental laws of nature and the properties of matter and energy. This course, Introduction to Basic Vibrations, may be useful for Physicists because it covers the fundamental principles of vibrations, which are important for understanding the behavior of matter and energy. The course also covers the concepts of resonance and damping, which are important for understanding the behavior of matter and energy under dynamic loads.
Automotive Engineer
Automotive Engineer
Automotive Engineers design, develop, and test automobiles and other vehicles. This course, Introduction to Basic Vibrations, may be useful for Automotive Engineers because it covers the fundamental principles of vibrations, which are important for understanding how vehicles behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for designing vehicles that are resistant to vibration.
Mechanical Technician
Mechanical Technician
Mechanical Technicians install, maintain, and repair mechanical equipment and systems. This course, Introduction to Basic Vibrations, may be useful for Mechanical Technicians because it covers the fundamental principles of vibrations, which are important for understanding how mechanical equipment and systems behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for maintaining and repairing mechanical equipment and systems that are subject to vibration.
Vibration Analyst
Vibration Analyst
Vibration Analysts identify and correct vibration problems in machinery and structures. This course, Introduction to Basic Vibrations, may be useful for Vibration Analysts because it covers the fundamental principles of vibrations, which are important for understanding how machinery and structures behave under dynamic loads. The course also covers the concepts of resonance and damping, which are important for identifying and correcting vibration problems.
For more career information including salaries, visit:
OpenCourser.com/course/okzv68/introduction
Reading list
We've selected ten 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
Introduction to Basic Vibrations.
Provides a comprehensive overview of the field of vibrations, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of vibration control, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of vibration theory, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of vibrations and waves in continuous media, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of vibration of mechanical systems, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of nonlinear vibrations, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of random vibrations, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of vibration testing, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of vibration control, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
Provides a comprehensive overview of the field of vibration analysis, covering both theoretical and practical aspects. It valuable resource for students and professionals alike.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/okzv68/introduction
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Level
Intermediate
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Institution
Korea Advanced Institute of Science and Technology(KAIST)
Instructor
Yang-Hann Kim
Language
English
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Good to know
Explores basic vibrations, which is standard in mechanical engineering
Taught by Yang-Hann Kim, who are recognized for their work in vibrations
Develops vibrations of linear single-degree-of-freedom systems, which are core skills for mechanical engineering
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