This video contains and explains the following terms (with respect to Mechanical Vibration): 1. Mass (of a body to be analysed) - usually a rigid object. 2. Stiffness (for object or components that are flexible) - example: springs. 3. Damping (can absorb energy from the rigid and flexible objects) 4. Mass-spring damper models 5. Amplitude (of the vibration's displacement) 6. Frequency (based on oscillation of the object from initial point to final point back and forth) 7. Phase (referring to the degree of vibration) 8. Function of displacement x(t) 9. Plottings. (Assumption of pi/2 laggings and leadings) Thank you. P/s: I like the animation at 2:56, its funny considering you match it with vibration "behaviour". I guess you have some sort of humour in your class/lecture. I can see why my cousin praised you.
3:35 That is one wrong. omega is not a frequency, it's an angular frequency defined in BS 5775-7 or ISO 80000-8. The British Standard and International Standard, respectively. Well, it's the author's convention. I don't mind.
This video contains and explains the following terms (with respect to Mechanical Vibration):
1. Mass (of a body to be analysed) - usually a rigid object.
2. Stiffness (for object or components that are flexible) - example: springs.
3. Damping (can absorb energy from the rigid and flexible objects)
4. Mass-spring damper models
5. Amplitude (of the vibration's displacement)
6. Frequency (based on oscillation of the object from initial point to final point back and forth)
7. Phase (referring to the degree of vibration)
8. Function of displacement x(t)
9. Plottings. (Assumption of pi/2 laggings and leadings)
Thank you.
P/s: I like the animation at 2:56, its funny considering you match it with vibration "behaviour". I guess you have some sort of humour in your class/lecture. I can see why my cousin praised you.
awesome explanation, but the background audio is little loud .
Currently watching and it's uploaded 6 years ago, who's with me?
3:35 That is one wrong. omega is not a frequency, it's an angular frequency defined in BS 5775-7 or ISO 80000-8. The British Standard and International Standard, respectively. Well, it's the author's convention. I don't mind.
ya
Discovered that too. Thanks
Greeting from London, these videos are so helpful for my aerospace course
REALLY VERY NICE SIR, THANKS FOR YOUR VIDEOS...
Sir ur videos are simply awesome ! keep the good work going . It is helping many students.
thank u sir respect from pakistan and ur great sir.very well explained thank you so much
Thank you very much for sharing
It is highly commendable
his my prof, Universities Technical Malaysia
This was an amazing summary
man, you the boss!!!!
thanks sir,this is must for me.
nicely explained
Great video, although can you please let me know what text book you use for your lectures
Thanks!!
Thanks for this. This was an amazing video.
what application for making this presentation ?
VideoScribe
Very good, thank you!
really good but background sound is little loud.. thank you
excellent
thank you .
thanks,
from brazil
analista good
So warming
this subject is too tough for me, I think I'm really bad at dynamics :(
Thanksss
please remove the music from background
chapter over in 6mins
next time plz remove the music its very distracting
please remove the music it is very disturbing
Who put music in such video? Are you mad buddy??
I liked the music but it is loud