Free Online Course on Mechanics: Rotational Dynamics

Free Online Course on Mechanics: Rotational Dynamics
Certificate fee scholarship is available for this course.

Institution: Massachusetts Institute of Technology
Start Date: January 3, 2018

Massachusetts Institute of Technology is glad to announce you a free online course entitled as Mechanics: Rotational Dynamics. Learn about rotational dynamics, rigid bodies and moment of inertia in this calculus-based physics course. This course is the third of a series of modules that cover calculus-based mechanics. You will explore rotational motion and learn about the concepts of torque and angular momentum. This course will start on January 3, 2018.

Course Summary

  • Duration: 6 weeks
  • Commitment: 10-12 hours per week
  • Subject: Physics
  • Institution:  Massachusetts Institute of Technology
  • Languages: English
  • Price: Free
  • Session: Starts on January 3, 2018
  • Requirement: High school physics
  • Certificate Available: Yes

Who Developed the Course

  • About University: Massachusetts Institute of Technology — a coeducational, privately endowed research university founded in 1861 — is dedicated to advancing knowledge and educating students in science, technology, and other areas of scholarship that will best serve the nation and the world in the 21st century
  • Mission of University: The mission of the Massachusetts Institute of Technology is to advance knowledge and educate students in science, technology, and other areas of scholarship that will best serve the nation and the world in the 21st century. We are also driven to bring knowledge to bear on the world’s great challenges.

Target Audience

  1. High school physics
  2. Students should complete successfully:
  • Calculus: Calculus 1A: Differentiation through the given link:
  • Calculus 1B: Integration through the given link:
  • Calculus 1C: Coordinate Systems & Infinite Series through the given link:
  • Mechanics: Kinematics and Dynamics through the given link:
  • Mechanics: Momentum and Energy through the given link:
  • 01x modules are prerequisites for 8.02x which will be available in spring 2018.

Where Could This Lead You

  • Importance of the Subject in Today’s Scenario: Mechanics is the branch of Physics dealing with the study of motion. No matter what your interest in science or engineering, mechanics will be important for you – motion is a fundamental idea in all of the science.
  • Your Career Option: If you’re wondering what your future could look like in this area, here are some potential careers:
  1. Research Associate
  2. Physics Teacher
  3. Fluid Mechanics Engineer

Get Extra Benefits

You can pursue a verified certificate to highlight the knowledge and skills you gain ($49 Add the certificate to your CV or resume, or post it directly on LinkedIn. Receive an instructor-signed certificate with the institution’s logo to verify your achievement and increase your job.

How to Join This Course

Learning Outcomes

At the end of this course, you’ll be able to:

  • Rigid Bodies and Moment of Inertia
  • Torque
  • Angular Momentum
  • Translation and Rotation

Who Will You Learn With

  • Deepto Chakrabarty: Deepto Chakrabarty is Professor of Physics and Astrophysics Division Head in the Physics Department at MIT. He received an S.B. in Physics from MIT in 1988 and a Ph.D. in Physics from Caltech in 1996. Chakrabarty joined the MIT faculty in 1999 and has taught classes in Classical Mechanics, Electricity and Magnetism, Vibrations and Waves, Quantum Mechanics, and Astrophysics. His research specialty is in high-energy astrophysics and the physics and astrophysics of neutron stars, and he is the author of over 100 research papers.
  • Saif Rayyan: Saif Rayyan is a lecturer in the Physics Department at MIT. He received his Ph.D. in theoretical particle physics from Virginia Tech before switching his interests to teaching and to physics education research. In addition to teaching introductory physics, Saif is working on the development of physics courses on edX. Saif is the course coordinator of 8.05x.
  • Peter Dourmashkin: Peter Dourmashkin is Senior Lecturer in the Department of Physics at MIT. His research interests are in Mathematical Physics, Lie Group, and Algebra Representation Theory. He has been part of the development, implementation, and teaching team for Technology Enabled Active Learning (TEAL). He has developed OCW Scholar Courses, the physics curriculum for a new university, the Singapore University of Technology and Design (SUTD), and is currently working on online learning through MITx and edX.
  • Analia Barrantes: Analia Barrantes is a Physics Lecturer at the Experimental Study Group at MIT and is working in the development of pedagogical content for the freshmen physics courses on edX. Analia holds a master’s in physics from the University of Buenos Aires and a Ph.D. in civil and environmental engineering from MIT.
  • Michelle Tomasik: Michelle Tomasik is a postdoc in the Department of Physics at MIT where she currently works on developing online classes and assists with physics education research and teaching introductory physics. She received her Ph.D. in physics from MIT working on photovoltaics and density functional theory.
  • George Stephans: George Stephans (Ph.D. U Pennsylvania) is a Senior Research Scientist at the Laboratory for Nuclear Science and a Senior Lecturer in the Physics Department at MIT. His research work involves collisions of very high energy atomic nuclei.
  • Anna Frebel: Anna Frebel is the Silverman (’68) Family Career Development Professor and Assistant Professor in the Astrophysics Division of the Physics Department at MIT. Originally from Germany, she received her D. from the Australian National University’s Mt. Stromlo Observatory. Following postdoctoral work at the University of Texas at Austin and the Harvard-Smithsonian Center for Astrophysics, Frebel joined the MIT physics faculty in 2012.

Suggested Reading

You can refer these books:

  • Introduction to Classical Mechanics: With Problems and Solutions by – David Morin
  • Foundations of mechanics by – Ralph Abraham


  • Importance of Course: At the end, of the course, you will understand the conservation of angular momentum, and use it with other conservation laws to solve complex problems in rotational dynamics.
  • Importance of Certificate: By the Certificate of Achievement you will be able to prove your success when applying for jobs or courses. You can display it on your LinkedIn or CV.

Detailed Information

For more information about the course, you may visit the given link:!

Apply Now


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