Tube Resonance - Standing Sound Waves
Here are some ideas for labs on sound standing waves. This video also explains how standing waves in tubes form specific frequencies and wavelengths.
Here are some ideas for labs on sound standing waves. This video also explains how standing waves in tubes form specific frequencies and wavelengths.
Пікірлер: 96
Every single one of your videos are gold dust! Gutted to have discovered then so late!!!!!
Ive looked all over for a video to explain this, and you did it perfect job just clicked. This was most likely due to the fact that you used actual obiects in your video thanks a lot 😀😀
@TaiStar42
2 жыл бұрын
Still the best five years later
why does not every educational video on youtube is like this one filled with examples and fun
This is the best explanation for sound waves I've ever heard. Thanks!
You did it perfectly to help me understand physics. Thank you professor !
This is away better than the other videos on the internet. You explained it very well. Please make more videos on such kind of practicals. Keep up your good work!
@Ahmedibrahim-xv1je
5 жыл бұрын
Yeahhhh I've watched loads of videos to understand this but non of them got me to understand same as this one
Thank you so much for making these. I always feel like I come away with a at least basic understanding of something I couldn't grasp before. You explain things very well. =)
Very clear explanations with intuitive interpretation of the equations. Well done. I am physicist-musician (guitar).
I can't explain how much it helped me...thanks a lot sir..!
Wooow! You explained it very well!! Awesome video!!
Cut 🤭😁 I love this video and the way u were enjoying the teaching (evident from your constant smile)
WOW!! this is amazing! thank you for making it really intresting as it is! keep up the good work!
Superb demo; we're watching it in my advanced phonetics class.
Finally I understand it. Great video. Thanks.
Amazing video..I have been looking for this content for long time..now I found this..wonderful
thank you for the video! Great explanation! Totally love it!
Amazing, i was looking for this!
Awesome video man... Thumbs up
This is some quality stuff. Thanks
Amazing and the best to understand .... Thanks a punch
Ahhhhh... This topic haunted me for so long I just don't understand until I don't do and I just felt like I was doing that all Thankyou very much
Nice vid. We were given some at home lab kits w no instructions at all so I'm just going to follow this vid and write up a lab report on that
This was really helpful👍 and most nice explanation ever senn
Awesome. Couldn't have explained better.
Great job! Thank you so much
So helpful , Thanks
This guy so good.
Brilliant !
Wow, first explanation of sound wave mechanics that ever clicked in my brain. Thank you! The most educational 6min 49 sec ever!. So far so good. Now, why does the bottle have a much lower resonant pitch than the graduated cylinder, even though it is much shorter? Hmmm. Is there a correlation between the total volume of the bottle and the graduated cylinder? Can the length/width be factored in to predict the frequency of resonance? Why is it that every question you answered raises another question in my head? Or in this case three, Haha, thanks again!
woaaaahhh that was amazing!!Thank you!!
Great video, relly helpfull!
Great video 👍
its great dude
I like this channel!
Howard wolowitz, but seriously you're a gem.
Nice bro keep it up
thank you
So cool.
This is Gold.
WOW VERY INTERESTING!
cool vid thanks.
Lovely....
You are awesome
fab vid
Perfect video. Note that at 5:43 you should have said that the wavelength is half as long.
v good video, my dude. uwu
Crazy how electromagnetic waves behave very similar. We can use “tubes” of quarter wave length and see the same resonant effect if the end is closed with a conductor. But if the end is opened then the resonant frequency is half wave length. Just like sound in this video!!! I actually use this at work everyday.
Dear Respected Sir, you are great, you are doing great job. Also you look very handsome.
@ittechsupport8149
3 жыл бұрын
Gay bruh
@muhammadhussainsarhandi9928
3 жыл бұрын
@@ittechsupport8149 Nonsense,
Dear Prof., I have a mix up in my terminology, I think you can clear things up. I did the following experiment: I have air flowing through a straight pipe. Pressure ratio between outlet and inlet is lower than the critical pressure ratio, which suggests flow velocity at the outlet is close to the speed of sound. I have recorded the sound of this process and analyzed the frequency spectrum. Suprisingly for me (but maybe not for you), the dominant frequencies are in a integer ratio to one another. So this would imply a standing wave behaviour.. but can it be called that? The air is moving at a great speed through the pipe after all. I search on the web for explanation, of little avail. Literature containing a mathematical approach would be greaty appreciated. Take care, love your videos.
One thing you didn't mention it when we fill a bottle(or a tube in this case) like at 4:28 the frequency of sound coming increases as the length of air in the tube is decreasing so the wavelength decreases resulting in increased frequency!!
At 1:30 how do we know there aren't any other nodes/antinodes inside the tube? Why wouldn't it be a node-antinode-node-antinode distance, in which case the tube's length would equal 3/4 of the wavelenght? I know that then it's a higher harmonic but the equation then changes completely and we get a frequency that's triple its original one.
Really great video.Please keep up the good work.Now,I have a doubt that at 4:38 the tuning fork resonates 2-3 times with the cylinder with decreasing amount of fluid.How is that possible?I know that the tube can have several different frequencies but I think the tuning fork has only a single particular frequency so how can it resonate with all the different frequencies ,as I have read that resonance only occurs between "similar" frequencies?
@uk3999
2 жыл бұрын
when the air inside the tube resonates with the fork, the standing wave pattern has the same wave length each time (calculate and see) and also the velocity of sound in air and the frequency remains constant
@prnairofficial
2 жыл бұрын
TUNING fork have a fixed frequency. as the level of water decreases the length of the pipe increases the frequency decreases. In a standing wave of closed pipe odd multiples of the fundamental frequency gives the next frequencies which can resonate with the tuning fork as the length of the pipe valued is different in each resonance. so the tuning fork is not responsible for numerous resonance, the increasing length of the pipe makes it behave like different pipes of odd harmonics
beutifull thats all
Great video! However, could you give an explanation on why a node exists in the middle of the double-open pipe? Or: why aren't the gas molecules all move in unison back and forth along the pipe? Thanks!
@christinehalley291
3 жыл бұрын
I don't know about the gas molecule part. But for an open ended tube at the ends you'd have anti nodes since max displacement occurs. And a node can be found exactly half way between two anti nodes thus in the middle of the double open pipe
can you set up a technique for measuring standing waves in a tube with BOTH ends OPENED ?
does anyone know what the name of the music he used at the beginning for his intro? it sounds really nice and i want to know the name so i can find it elsewhere 😭
good boy
Just WoW
How do we know that air in the tube will vibrate at its fundamental frequency while calculating the speed of sound?
speed of sand?
@poketube6224
4 жыл бұрын
He said sound
approximately before the year 1815 the brass trumpet had no valves. could the physics you are explaining result in designing a superior trumpet of that pre-1815 type? We know obviously that trial-and-error could be used to find a proper trumpet tube length (and we know that the primary note and also the harmonics) are keyed to the fairly precise length...Ultimately I am asking do you think the phyics (a la math) is really key to design of a superior or more perfect trumpet? (but what is "perfect"....could be output power or could be frequency precision [ in-tune or out-of-tune] I would suppose).
Sneaky goated
I tried do determine the sound speed in my room using your way. It came out to be about 320 m/s, with a constant frequency of 696 Hz and wavelength about 0.46 m..... Can it be somehow correct?? Btw it's cold here ( below 20° C)
I wish I had found your videos long ago. I am a Physics teacher too. I am wondering how you set up your class so that every kids has the inquiry opportunity which is hard to manage. How many kids do you have per class and do you ask the students do the experiment by themselves or what? Thank you.
@aaptfilms
5 жыл бұрын
The magic word is "Stations." You want perhaps as many as 5 experiments set up in your classroom. The students can rotate from table to table trying out the experiments. Get them to put their hands-on the experiment. Even in this video, each experiment can be a station. I know it is hard, but try to eventually have a hands-on activity every day.
WOW!!!!!
hi James, thanks for this interesting film. My students tried to calculate the groundfrequency of a soda bottle yesterday, just by measuring the length of the bottle and using 340m/s for the speed of the air. They found a frequency of app 410Hz. When they blew on the bottle, they found a frequency of app 250Hz using their mobil phones and Phyphox. Using 250Hz the bottle resonated, not wit 410Hz. Can you explain this difference? Thanks !!
@aaptfilms
5 жыл бұрын
Yes, the bottle is not a tube. There is extra width which increases the effective length. The formula I use is only for long thin tubes, in fact it is an approximation for 1D sound waves. The worst bottle would be a perfect sphere, which is known as a helmholtz resonator. Most bottles will not meet the tube approximation, which itself has some problems.
I have tried a lot but failed to make a PVC flute of 6 holes closed at one end with a rubber cork...sir Can you help me anyhow to find the distance between cork, blow hole and the figure holes???....please
*omg wooow*
excuse me simple question but how did you get that the frequency is 288 and the wavelenth 1.6?
@aaptfilms
5 жыл бұрын
The frequency is stamped on the tuning fork. See this video: kzread.info/dash/bejne/YoZ6zqqEgJDAf5s.html
"cuttt"
Why are we comparing wave length with the length of tube ? @1:35
Nice job Just one issue You cannot assume (1:29) the node to anti node distance to be one quarter of the wavelength, it can be three quarters or even five quarters.
i have a doubt sir , that shouldn't the tuning fork be placed like 90 degrees rotated about axis ,like the fork is vertical and not face down ,the disturbance cause by the fork is not face down but along the tuning fork. pls clarify.the theory is very well explained by u sir :-)
@aaptfilms
6 жыл бұрын
Both 90 degrees and zero degrees rotation will work. However, 45 degrees rotation will be silent. Try this by holding a fork to your ear and listening.
@jueedhar5449
6 жыл бұрын
umm..but wont the propogation be along the prongs and the disturbance needs to be in direction of the tube sir?
I thought the node was the the open end and the antinode was at the closed end..
this guy looks like the teacher in the movie who's having a fling with one of the students
Why hold it sideways
@youtubegoldmines
6 ай бұрын
Why hold the tunning form sideways?
What is that cartoon science behind Your back ? 0:33
We are kids
bill nye vibes
You are cute.
@bruhreally4867
4 жыл бұрын
That's kinda gay