MIT 2.003SC Engineering Dynamics, Fall 2011 View the complete course: ocw.mit.edu/2-003SCF11 Instructor: J. Kim Vandiver License: Creative Commons BY-NC-SA More information at ocw.mit.edu/terms More courses at ocw.mit.edu
I'm a master student and I could say this the best and highest standard lecture I've had during my study life. Please please put other courses of MIT for mechanical engineering that all student around the world enjoy course
Here's what we have for mechanical engineering: ocw.mit.edu/courses/find-by-topic/#cat=engineering&subcat=mechanicalengineering. Best wishes on your studies!
My heartful greetings to that professor. There is a saying goes like this: A Poor teacher explains, A good teacher demonstrates, A great teacher inspires! You are a GREAT TEACHER ❤️. Your art of teaching inspire students to explore knowledge and dive deep into the nature. Because of you great people MIT and USA are in leading positions. Thank you MIT for great initiative ❣️.
These blog posts: mitopencourseware.wordpress.com/2018/06/18/statement-on-ocw-videos-blocked-on-youtube/ and mitopencourseware.wordpress.com/2018/06/21/mit-opencourseware-videos-on-youtube-have-been-restored/ should help explain what happened.
DR. Vandiver, thank you for an incredible explanation and demonstration of Mechanical Vibration of Continuous Structures: Poles, Strings, Beams and Rods. Everything that is develop and built by the human race is linked to some type of engineering.
I am doing my research on wave propagation and I learnt these things in 2 weeks by Karl book on wave propagation now I watch this lecture that is very informative and detailed.
sorry to be so offtopic but does anybody know a trick to get back into an Instagram account?? I was dumb forgot my password. I love any help you can offer me.
@Harlan Maverick I really appreciate your reply. I got to the site through google and I'm in the hacking process atm. Takes quite some time so I will reply here later with my results.
Have a question regarding the organ pipe experiment. The frequencies played are approximately 370 Hz and 210 Hz respectively. So it's not exactly the half but something like 0.57 times the first frequency. What's the reason of this?
+Fahad Mohsin -- Check out the full course site on OCW for all the details and course materials: ocw.mit.edu/2-003SCF11. The recommended reading come from two texts: Hibbeler, Russell C. Engineering Mechanics: Dynamics. www.amazon.com/exec/obidos/ASIN/0136077919/ref=nosim/mitopencourse-20/ and Williams, J. Fundamentals of Applied Dynamics. www.amazon.com/exec/obidos/ASIN/0471109371/ref=nosim/mitopencourse-20/.