Fluid Mechanics Help: Sonic Pressure Wave Behavior in Pipes

AI Thread Summary
The discussion centers on the behavior of sonic pressure waves in pipes, particularly when encountering changes in cross-section, such as in an expansion chamber. It is clarified that the energy of the reflected negative pressure wave does not equal the energy lost by the original wave upon encountering the convergence. Instead, momentum is conserved, meaning the momentum lost by the original wave is equal to the momentum gained by the reflected wave. The conversation emphasizes that while kinetic energy dissipates, momentum remains constant in these interactions. Understanding this distinction is crucial for analyzing wave behavior in fluid mechanics.
Rotormaster
Messages
6
Reaction score
0
Hi guys.

I have a question on sonic pressure wave behavior in pipes.

When a pressure wave traversing down a pipe encounters a change in cross-section, namely, a convergence say like that of an expansion chamber, a negative pressure wave is reflected back in the opposite direction. My question is, does the energy of the reflected negative pressure wave proportionally equal the energy that the original wave loses in encountering the convergence?
 
Engineering news on Phys.org
Hi Rotormaster! :smile:
Rotormaster said:
… does the energy of the reflected negative pressure wave proportionally equal the energy that the original wave loses in encountering the convergence?

No.

If we treat this as a collision, then of course https://www.physicsforums.com/library.php?do=view_item&itemid=53" of a musical instrument), so we need one extra constraint …

that constraint is the fixed speed of the waves, not their energy. :wink:
 
Last edited by a moderator:
tiny-tim said:
Hi Rotormaster! :smile:


No.

If we treat this as a collision, then of course https://www.physicsforums.com/library.php?do=view_item&itemid=53" of a musical instrument), so we need one extra constraint …

that constraint is the fixed speed of the waves, not their energy. :wink:

Hi there!

I find this interesting but I don't quite understand what you said.

Obviously, momentum is conserved. And of course, their speed is fixed as we are talking about sonic waves. And, clearly, their energy is obviously not fixed as they are ever engaging in contact with their environment, until they dissipate that is.

But why did you say that the momentum lost by the original wave is equal to the momentum of the reflected wave??

Can you elaborate?

Thanks.
 
Last edited by a moderator:
Welcome to PF!

Hi Juval! Welcome to PF! :wink:
Juval said:
But why did you say that the momentum lost by the original wave is equal to the momentum of the reflected wave??

?? :confused:

As you said …
Obviously, momentum is conserved.

… and if momentum is conserved, where else can the "lost" momentum go? :smile:
 


tiny-tim said:
Hi Juval! Welcome to PF! :wink:


?? :confused:

As you said …


… and if momentum is conserved, where else can the "lost" momentum go? :smile:

Thanks!

Yes, I see what you are saying with that, but that is not what I was referring to.

What I meant was that, a question was asked in the initial post whether the energy of the reflected wave directly equals the energy lost by the original wave. You answered this with a "no"... But then you went on to say that "the momentum lost by the original wave is equal to the reflected wave"??

Hopefully you can explain what you meant by that.

Sorry, I should have made myself clearer from the beginning. :)
 
Hi Juval! :smile:

If two tennis balls collide, kinetic energy will always be lost, but momentum will always be conserved.

The momentum lost by one tennis ball will always equal the momentum gained by the other tennis ball.

It's the same with a sound wave

kinetic energy will be lost (and disappear into other forms of energy)

but the momentum lost by the original wave will equal the momentum gained by the reflected wave.​
 
Thread 'Turbocharging carbureted petrol 2 stroke engines'

Thread 'Turbocharging carbureted petrol 2 stroke engines'

Hi everyone, online I ve seen some images about 2 stroke carbureted turbo (motorcycle derivation engine). Now.. In the past in this forum some members spoke about turbocharging 2 stroke but not in sufficient detail. The intake and the exhaust are open at the same time and there are no valves like a 4 stroke. But if you search online you can find carbureted 2stroke turbo sled or the Am6 turbo. The question is: Is really possible turbocharge a 2 stroke carburated(NOT EFI)petrol engine and...
View full post »

Thread 'HP Required to move a robot 10meters at 1.5m/sec'

I need some assistance with calculating hp requirements for moving a load. - The 4000lb load is resting on ball bearing rails so friction is effectively zero and will be covered by my added power contingencies. Load: 4000lbs Distance to travel: 10 meters. Time to Travel: 7.5 seconds Need to accelerate the load from a stop to a nominal speed then decelerate coming to a stop. My power delivery method will be a gearmotor driving a gear rack. - I suspect the pinion gear to be about 3-4in in...
View full post »
Thread 'Calculate minimum RPM to self-balance a CMG on two legs'

Thread 'Calculate minimum RPM to self-balance a CMG on two legs'

Here is a photo of a rough drawing of my apparatus that I have built many times and works. I would like to have a formula to give me the RPM necessary for the gyroscope to balance itself on the two legs (screws). I asked Claude to give me a formula and it gave me the following: Let me calculate the required RPM foreffective stabilization. I'll use the principles of gyroscopicprecession and the moment of inertia. First, let's calculate the keyparameters: 1. Moment of inertia of...
View full post »

Similar threads

Doublet flow in Fluid Dynamics between two spheres or cylinders
Replies
0
Views
1K
Relationship between volumetric flow rate and pressure
Replies
3
Views
5K
A basic fluid mechanics concept that's puzzled me for years
Replies
17
Views
12K
Huge pressure drop after changing pipe length (Don't think it's loss)
Replies
13
Views
4K
Question about pressure drops due to friction and valves
Replies
6
Views
3K
I Work - Energy Principle Application to Fluid Flow
Replies
35
Views
4K
I Bernoull's Equation Derivation From Work - Energy Principle
Replies
20
Views
3K
Need help re: air pressure to fluid pressure
Replies
9
Views
4K
Pressure wave through liquid in pipe
Replies
2
Views
2K
Fluid Mechanics Help: Questions Answered
Replies
5
Views
4K

Hot Threads

Recent Insights

Back
Top