Комментарии:
Now I find this not so complex
ОтветитьThanks
ОтветитьGreat job done professor Dave🎉
ОтветитьBrilliant how you define problem of The amplitude of harmonics in modern way!
Thank you for nodes and standing waves.
The alternative process-of extracting from the signal the various frequencies and amplitudes are present practical for physical approach like: "How to guid!"
Thank you
ОтветитьIf a guitar string is a standing wave, with no oscillations at the boundaries, why does changing the tension change the pitch?
ОтветитьRESPECT 🙏 🫡
ОтветитьBeautiful explanation of a beautiful topic. Thanks Prof Dave.
Ответитьconsonant intervals are boring to a jazz- and semitone- and major-seventh- loving ear :)
Ответитьlol just trying to learn to play harmonics and got my mind blown 🤯
ОтветитьI can tell these are gonna save me for revision
ОтветитьThank you, now I understand quantization. lol
ОтветитьI’ve reached a point where I like the video before it even begins, I just know it’s going to be amazing
ОтветитьCan you explain where the extra length of string comes from when the standing wave is at its highest amplitude vs when it is a straight line.
Ответитьeven when within the depths of A-Level physics revision GCSE music still finds a way to haunt me
Ответить🔥❤️🔥
Ответитьbakwas marta hai yeh , kuch samajh nhi aaya . is par mujhko gussa aa rha hai
ОтветитьYou are good explaining !!Congratulations
Ответитьthanks so much
ОтветитьI use to email professor Dave, but he never respond to my email.
ОтветитьI was trying to understand musical chords and ended up here
Ответитьthe notes are flat
ОтветитьI'am a teacher, but feels like a student when he lectures. I enjoyed your videos a lot
ОтветитьCould this be why the all the bills were removed from the Catholic Christian Church and replace with lower frequencies or speaker amplified bells are you able to explain this to me sir
ОтветитьI thought professor Dave explains only chemistry but he explains physics too..he's a life saver 😭❤️
ОтветитьI think we really need more detail about the consonant intervals. Deserves its own video
ОтветитьI hate my ADHD, this is so damned difficult
Ответитьquantum!
ОтветитьClueless
ОтветитьIt was easy after learning this ... Thank you prof.😃
ОтветитьWait! Why is a third harmonic called a fifth, not a third??? What is it 1/5 of???
ОтветитьJesus, what do you not teach
ОтветитьIf higher frequency means more energy, why are overtones not as loud as the fundamental frequency?
ОтветитьLots of love from india sir❤️
Clear explanation..
Standing & 4th harmonic is physics like we can listen in.
ОтветитьSir do vocal folds vibrate at multiple frequencies at the same time.
Means how do vocal folds produce both fundamental vibration and series of harmonics simultaneously??????pls clarify sir. Is it done by vocal folds or vocal tract or by fundamental vibration itself ??
this dude's legit
Ответитьwhat about PHI ratio harmonics?
ОтветитьI came here for fire EQ techniques and left with a lesson on Quantum Physics lol
ОтветитьAwesome. Thank you for the great video. This is very clear and well presented.
ОтветитьHello professor Dave, please make me understand harmonics... You went so fast that missed most part of what you said😔
Ответитьthis is amazing
ОтветитьRanvir Kapoor
ОтветитьWhy are light and matter standing waves
Ответитьyeah i still cant understand how can someone simplify stuff yet cover all details.
Great videoas always.
thank you
You're so amazing professor
ОтветитьSir these short vedios are quite amazing and helpful too. The way you deliver the content is unique in itself. Thankyou Sir.
ОтветитьThe explantion is very clear and easy to understand. Thank you very much.
ОтветитьNice explaination.
Respect from Punjab india. 🙏☺