Conservation of Mass | Thermodynamics | (Solved Examples)

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Learn about the conservation of mass, control volumes, mass flow, volume flow, steady flow, incompressible liquids and more! We also cover a few examples at the end, all step by step.
🔸 Ideal Gas Equation: • The Ideal Gas Equation...
🔸 Property Tables: • Pure Substances and Pr...
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Intro (00:00)
Mass Flow (00:59)
Volume Flow (02:24)
Conservation of Mass Principle (02:59)
Steady Flow (03:20)
Incompressible Flow (04:20)
The ventilating fan of the bathroom of a building (04:54)
A spherical hot air balloon is initially filled with air (05:35)
Refrigerant 134a enters a 28 cm diameter pipe (09:22)
Books used:
📘Çengel Yunus A. and M. A. Boles, Thermodynamics: an engineering approach. New York, NY: McGraw-Hill Education, 2016.
📘C. Borgnakke and R. E. Sonntag, Fundamentals of thermodynamics. Hoboken, NJ: Wiley, 2019.

Опубликовано:

5 июл 2024

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Комментарии : 33

@yingtongluo1245 Год назад

Reviewed and parcticed thermo midterm with your videos. They helped me get 95! Thank you so much!

@QuestionSolutions Год назад

Really glad to hear the thermodynamics playlist is helping someone 😅 Thank you for taking the time to write your comment, really appreciate it.

@kryptocat4240 2 года назад

Thanks for such a great video

@QuestionSolutions 2 года назад

You're very welcome!

@michaelokaysin4239 2 года назад

Thanks men may God bless u

@QuestionSolutions 2 года назад

Thank you!

@joshuacharlery5826 2 года назад

I remember when you had a small amount of subscribers. Nice to see you growing! :)

@QuestionSolutions 2 года назад

Thank you so much, it does make me very happy :)

@DASmallWorlds Год назад

Saved my ass in dynamics and coming in as an extremely helpful supplement in thermodynamics. Many thanks

@QuestionSolutions Год назад

I am really happy to hear that! Best wishes with your studies. Keep up the good work!

@DASmallWorlds Год назад

@@QuestionSolutions Ah, just as a follow up, do you intend to follow up the series on the Second Law?

@QuestionSolutions Год назад

@@DASmallWorlds Yes, absolutely!

@erwinr975 2 года назад

Are you gonna upload strength of materials videos ? Your statics videos were so helpfull for me last term and I need now strength of materials videos.

@QuestionSolutions 2 года назад

It's on my list of things to do, but currently, it's thermodynamics. In the future, I will do a series on strength of materials as well. 👍

@nahommerk9493 Год назад

For the second problem, there is a much simpler way that doesn't require any extra constants like R or specific volume. First find the change in volume from initial to final (Subtracting the volume of sphere with diameter of 5 from the volume of sphere with diameter of 15). Then find the volume flow rate by multiplying velocity by area of cross section. Finally divide the delta V( volume ) you got earlier by the volume flow rate you just calculated to get time in seconds. You will get the same answer (12 minute)

@QuestionSolutions Год назад

You can solve these problems in so many different ways, I just showcase a single method. Students should use whatever method they want that gives them the correct answer in a timely manner :)

@PenandPaperScience 2 года назад

What program do you use to make your visual/animations? They are very neat.

@QuestionSolutions 2 года назад

I use illustrator for diagrams and after effects for animations

@PenandPaperScience 2 года назад

@@QuestionSolutions Thanks! :) I will look into that.

@mohammadalawneh2059 6 месяцев назад

It gives you a very wonderful explanation but if you can give us the explanation of the video in the pdf file I will be thankful to you I am an Arab who used the translator in order to understand or this takes me longer Thank you ❤❤

@QuestionSolutions 6 месяцев назад

Unfortunately, I don't have pdf files for videos. Please refer to your textbooks and course notes for the relevant sections. These videos are only meant as a supplementary tool for your class notes. Almost all the videos being uploaded now have closed captioning, so auto translate should do a reasonably good job as well. :)

@ItsMe-lr5nd 2 года назад

Please cover heat transfer 🙏

@QuestionSolutions 2 года назад

Do you mean this? ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-SciA8YS1M5o.html

@EfeKurcay Год назад

In the balloon question, since the properties of the gas in the balloon and the gas we use to fill the balloon are same, we can solve the question by just using volumetric flow rate right?. (Final volume of balloon - initial volume)/ volumetric flow rate will give the correct answer.

@QuestionSolutions Год назад

A lot of these questions can be done in a multitude of ways and you'll get the correct answer 👍 I just show case a specific method that pertains to the topic of interest. So yes, you can do it that way, and a few other ways too.

@duttyusman4636 2 года назад

When are you gonna cover rest of the thermo course plz cover it i have my exams after a month , your videos are helpful thank youuu :)'

@QuestionSolutions 2 года назад

I'm really sorry, I won't be able to create anymore videos until next month, so May.

@duttyusman4636 2 года назад

@@QuestionSolutions hmm thats ok no problem my exam is in june But please upload fast ❣

@QuestionSolutions 2 года назад

I'll do my best :)

@duttyusman4636 2 года назад

@@QuestionSolutions 💚

@leenaa5511 7 месяцев назад

Hi sir, at 8:55 I tried to get the same answer but only substituting density with m/V. I get the answer of 3.36 only when I use the total mass of 2521.76kg. However, I don’t understand why the mass we use is not the change in mass. If you could please clear up my confusion I would appreciate it :)

@QuestionSolutions 7 месяцев назад

Please give me all the values you used. I am unsure of what m, V and other values you used to get 3.36, only that you used total mass. Thank you :)

@leenaa5511 7 месяцев назад

Of course, Mass flow rate = (m2/V2) * Vav * Acr =(2521.76 kg/(1/6pi*15^3)m^3) * (3 m/s) * (pi/4 m^2)) = 3.36 kg /s My difference in mass was : =m2-m1 =2521.76 - 93.398 = 2428.362 kg (but this mass didn’t give me 3.36). Hope I wrote it clearly!