Fluid Mechanics: Topic 7.1 - Conservation of mass for a control volume
HTML-код
- Опубликовано: 9 сен 2024
- Want to see more mechanical engineering instructional videos? Visit the Cal Poly Pomona Mechanical Engineering Department's video library, ME Online: www.cpp.edu/meo...
I study physics on my own. Your videos are so powerful and helps me so much! Thank you!
ruclips.net/video/vFDMaHQ4kW8/видео.html ..💐
You just explained all this in 9 minutes, while my professor explained in 2 hour long video. I can proudly say, i learned more from this. Thank you!
It took us much longer than 2 hours to write, record, and edit the video. :)
You guys are awesome! @@CPPMechEngTutorials
Wonderful explanation. These videos are very informative!
Hooray!
I couldn't thank you enough for this video. So consise and very well put-together. Thank you so much sir
From the video, whatever I've learned that is writing -
1. For steady flow, there is no net accumulation of mass with the control volume provided that the control volume it self should not be deforming in the time scale of instants considered.
2. In steady flow at any instant in time, the incoming & outgoing mass fluxes are same so that the mass content at any instant in control volume remains the same.
I did not breath for 9 min! Unbelievable explanation
You were only 15 minutes short of the world record.
Phenomenal video man, thank you so much!👍
You sir have helped me a bunch with just this one video! Im watching the other fluid dynamics/mechanics of mat. right away!
:)
Thank you very much for the videos. They're extremely helpful and have cleared up a lot of confusion.
We're glad they've helped people.
Differentiate between “conservation of mass” and “conservation of volume”. Under
what conditions they become identical? In a compressor, whether both or anyone
(which) is valid?
SIMPLY AMAZING! Thanks for the videos!
You're welcome!
You are always great! Thank you.
🖤
I sometimes wonder why I even go to class when I have you to break it down. I don't even need the textbook if not for questions that may come out on test to practice ahead of time
taking transport Phenomena, very helpful thanks
Thank you very much. This video makes me understand the most !
ruclips.net/video/vFDMaHQ4kW8/видео.html ..💐
This was a really good video thank you
I actually understand now!
Hooray!
Just THANK YOU!!!!
you're WELCOME!!!!
Thank you very much sir, this was very helpful!
im confused on what is the main difference between mass and linear conservation, can u explain please?
what about for control mass or closed system?
Wow that is a good video.
Too good explained
Thank u very much , I now understand what happening
ruclips.net/video/vFDMaHQ4kW8/видео.html ..💐
Amazing video thank you
ruclips.net/video/vFDMaHQ4kW8/видео.html ..💐
Thank you very much! You explain too well.
We're glad you found the video useful.
Can I ask how you typed the symbol for volume on ppt? I am not able to.
V with a strikethrough.
I didn't understand where the walls part came from. Can you explain it a little?
What part of the video are you referring to?
@4:45 the wall of the integral.
The control volume consists of both the entrances and exits, as well as the walls of the device. The area is broken up into the five inlets/outlets, and the remaining area which is the walls.
Clear explanation
ruclips.net/video/vFDMaHQ4kW8/видео.html ..💐
Great explanation :)
Thanks.
At 3:08, it was stated that with steady flow, the term with the time derivative will equal 0 and because of this, the second term will also equal 0. However, on the next slide, we begin analyzing a steady flow device and acquire different results. Can you please clarify how this happened?
We use the steady state equation as the starting point to analyze the generic device. What do you mean by "acquire different results?"
KIS^2
Wow superb
ruclips.net/video/vFDMaHQ4kW8/видео.html ..💐
I know I am late but still Thank You..
ruclips.net/video/vFDMaHQ4kW8/видео.html ..💐