Standing Waves In Organ Pipes - Closed & Open Tubes - Physics Problems
This physics video tutorial provides a basic introduction of standing waves in organ pipes. it covers the closed tube air column which is open at one end and the open tube air column which is open at both ends. The first problem explains how to calculate the fundamental frequency of an organ pipe open at both ends / open tube, the frequency of the of the 4th harmonic, the frequency of the 5th overtone, and wavelength of the 2nd overtone. The second problem explains how to determine the fundamental frequency of a organ pipe closed at one end / close tube air column, the frequency of the 3rd overtone, and the wavelength of the 2nd overtone. The last problem gives you two successive harmonics of an organ pipe and asks you to determine is a closed tube at one end or a tube open at both ends. In addition, it discusses how to calculate the length of the pipe and determining the fundamental frequency. This video contains plenty of examples and practice problems.
The Physical Pendulum:
• Physical Pendulum Prob...
Mechanical Waves Problems:
• Mechanical Waves Physi...
Wave Speed on a String:
• Wave Speed on a String...
Standing Waves on a String:
• Standing Waves on a St...
Speed of Sound In Matter:
• Speed of Sound in Soli...
Sound Intensity Physics Problems:
• Sound Intensity Physic...
_______________________________
Sound Intensity Level:
• Sound Intensity Level ...
Beat Frequency:
• Beat Frequency Physics...
Doppler Effect Physics Problems:
• How To Solve Doppler E...
Sound Waves Review:
• Sound Waves, Intensity...
Physics 1B Final Exam Review:
• Physics 1B Final Exam ...
______________________________
Linear Expansion of Solids:
• Linear Expansion of So...
Temperature Conversions:
• Celsius to Fahrenheit ...
Thermal Stress and Strain:
• Thermal Stress and Str...
Heat Energy - Unit Conversions:
• Joules, Food Calories,...
Final Exams and Video Playlists:
www.video-tutor.net/
Physics PDF Worksheets:
www.video-tutor.net/physics-b...
Пікірлер: 63
Final Exams and Video Playlists: www.video-tutor.net/
Im happy to be the fifth person to view this in the whole world. And I wanna say thank you for your awesome tutorials.
@kaiseramukutari9719
6 жыл бұрын
Peter Rock thx alot
@crimsagon4293
5 жыл бұрын
Ur high mate
I love your teachings especially in physics,I am so grateful that there are people like you,that tutor me on physics apart from my teachers
the lecturer is patient and quiet. his explanation is simple and he gives a lot of examples solved in detail.
The way you make things so easy to understand...thank you so much!
I love you for making all these videos -really helping me a lot for my MCAT ❤️❤️❤️
@demon1c462
2 жыл бұрын
updates?
Best ever guy to make me understand this concept
you made it very easy to understand ........THANK YOU ❤🔥💞
This helped last minute before my test on it TYSM!
Thanks for this video, it was very helpful.
Thank you very much. I have really understood organ pipe’s problems. I have had a lecture on it today which I kinda couldn’t understand but with you I did it. Thanks once again!
This is amazing. The method I was taught in class was so confusing and disoriented, and here you give perfect equations for everything. Thank you!!
@kingkongcreeper
Жыл бұрын
True
@nevinisser21
10 ай бұрын
@@kingkongcreeper did bro reply to his own comment
@kingkongcreeper
10 ай бұрын
@@nevinisser21 Idk, did I? Are you blind?
You are too good to me since high school days to university 🇵🇬🙏
Physics exam tomorrow and I never understood this topic until now! Thank you 🙏!
@nateparsons9971
4 жыл бұрын
Rayan Somani I feel that on a personal level
@datboi1861
3 жыл бұрын
How'd it go??
admirable teacher admirable ♥️♥️♥️
Thankyou sooooo much 🙏🙏
thank you so much for this
Thank you sir 😇
Thank you soooooooo Mucccchh.....
I'm getting big brain energy by watching this. Hopefully I can use it on my Ap physics makeup tm...
@datboi1861
3 жыл бұрын
How'd it go??
@adamkadaban
3 жыл бұрын
@@datboi1861 got 5s on physics 1 and 2 😤😤😤 organic chemistry teacher is 100% the best for this stuff
@datboi1861
3 жыл бұрын
@@adamkadaban That's nice to hear!
Thanks man💝
Thank u sir
Big help
Where did you get this veloicty equation from, it was 343 +0.06(t) ?
@mateobetelu1686
3 жыл бұрын
That is the equation to find velocity with temperature. It’s v=331+.6 (temp.)
Best teacher
savior
🥺👍may Allah bless you.
How about stretched string
Thanks from africa
Bpho test today, 3hours to go
this guy is a fokn beast
Talked on 4 th and you derived 3rd harmonic
3rd
@Silenttreatment44
3 жыл бұрын
@Noel Bisuku He meant 3rd view, probably.
I don't know where you got 331 m/s and 0.6T. Can you tell me where it's from please?
@nirajthapa5709
6 жыл бұрын
Alberto Aponte 331 m/s is the experimental velocity of sound in air at 0°c.so for 15°c he multiplies it by 0.6 and adds to the initial value to get approx velocity of sound at 15°c
@prathammahendran392
4 жыл бұрын
@Noel Bisuku but.. why do we add 0.6?
@datboi1861
3 жыл бұрын
@Noel Bisuku Why do we need to add 0.6T??
The examples are good but some background on why the formulas are the way they are (why can n only be odd for closed pipes, etc) would have been helpful.
where to get the v=331m/s + 0.6T with the answer of 340 m/s? like... the 331 and 0.6 comes from where? and why do we have to use the equation to get v? can you explain to me please.... i have exam in less than 48 hours... :')
@basozaraz4996
2 ай бұрын
Because velocity changes with different mediums (solid> liquid>Gas) and in Gas, the temperature can change the velocity so you’d need the temperature to calculate the velocity of sound in the air. and its usually 340 or 343 m/s.
6:55 what is meant by OT?? I wonder.
@floxy7358
2 жыл бұрын
Overtone
wait so what is n
How did you get 331 m/s?
@mirabelokafor1705
3 жыл бұрын
Thats the velocity of sound in air
@petereziagor4604
3 жыл бұрын
It's constant 😁 They could say calculate the speed of a sound wave at 100°c Then it's going to be 331 + 0.6(100)
@Luka1180
2 жыл бұрын
@@petereziagor4604 It's not at all constant. It's 331 m/s in air at 0 degrees C, but the speed will increase with the temperature in said air since sound waves are a form of kinetic energy and kinetic energy is dependant on temperature. Therefore, at 100 degrees Celsius, the speed of sound in the air will be 386.6 m/s. Or are you talking about 0.6? That IS a constant. But 331 m/s certainly is not.
the last example was poor. where is the thumbnail
Fly
You will actually learn it all from the 3hrs video 😁