could not thank you enough my g you are going to be the reason why I ace the mid term test on thursday its currently 1:36 am and its technically wednesday my test is on thursday thank you again
Wow! If ever the need arises, I will call upon you to fight by my side. Thank you for the funny but warming comment. Keep up the great work and best wishes with your studies.
Why was a potentially changing quality considered in the second example but not in the first one, considering both situations are identical (two fluid mixtures in a sealed rigid tank being heated up)?
You could do it that way, but we used a super heated vapor table to figure out the second value, so we didn't need the quality change in the first example. In the 2nd example, we used the same equation we used to find U1 to find U2 so we needed the new quality value. Two different methods were used.
@@QuestionSolutions So essentially, you only consider a quality change when the value of U2 can be directly found from the table without having to extrapolate it like you did in the 1st example?
@@josephisrael8959 You can do it either way depending on whether you have the necessary table or not. So it boils down to what is given, and what method you find is easier.
Just wondering, what is specifically is evaporation internal energy? Is it the internal energy of a liquid undergoing evaporation? Maybe the internal energy of a liquid already evaporated (gas)?
@@JGambrosia It's the change in internal energy during evaporation. Easy way to remember is to see that it's actually just the difference between Ug and Uf, so Ug - Uf = Ufg.
Hello, in the second example you used the same equation to find the U1 and U2 by using the table and finding a new quality but did it differently in the first, is there a reason for that or both can be applied. Thank you very much for the videos
So you can actually use multiple methods to get to the same answer. I try to show as many as I can, sometimes, I focus on one method, other times, multiple ones. Usually, it's easier to use one over the other, but that doesn't mean it's not useable. Use whichever method you'd like :)
Shaft work being negative here would mean the process is creating energy, like a turbine spinning to produce electricity. In this case, both the heat transferred to the oil and the stirring device is using up power.
could not thank you enough my g you are going to be the reason why I ace the mid term test on thursday its currently 1:36 am and its technically wednesday my test is on thursday thank you again
I am glad it was helpful. Keep up the awesome work and I hope you do amazingly on your midterm test!
wow!! I'm currently reviewing some thermo concepts for heat transfer and you made this so easy!! thank you!
Thank you and you're very welcome! Keep up the great work.
I would travel to the ends of the earth and fight enemy's beyond my comprehension for you. Thank you so much!
Wow! If ever the need arises, I will call upon you to fight by my side. Thank you for the funny but warming comment. Keep up the great work and best wishes with your studies.
Bro be saving lives fr
I'm always here, I'm just like a watchman fr question solutions.😂😂😂😂❤
Thank you for being here :) ❤
thank you!!! these videos are very helpful
I am really glad to hear that! Best wishes with your studies.
Thx for Example bro your video help my exam very much 🎉🎉🎉❤
I am really glad to hear that! I hope you do/did well on your exam.
Me too bro.
THANL YOU FOR SAVING MY GRADE
YOU'RE VERY WELCOME!
@@QuestionSolutions hey will you do vids about thermodynamics 2
thank you :)
@@mangoharun Yes, probably in the distant future though :)
@@QuestionSolutions thank you so much I will wait for them 😅
Why was a potentially changing quality considered in the second example but not in the first one, considering both situations are identical (two fluid mixtures in a sealed rigid tank being heated up)?
You could do it that way, but we used a super heated vapor table to figure out the second value, so we didn't need the quality change in the first example. In the 2nd example, we used the same equation we used to find U1 to find U2 so we needed the new quality value. Two different methods were used.
@@QuestionSolutions So essentially, you only consider a quality change when the value of U2 can be directly found from the table without having to extrapolate it like you did in the 1st example?
@@josephisrael8959 You can do it either way depending on whether you have the necessary table or not. So it boils down to what is given, and what method you find is easier.
@@QuestionSolutions That clarifies things. Thank you very much.
@@josephisrael8959 You're very welcome!
Just wondering, what is specifically is evaporation internal energy? Is it the internal energy of a liquid undergoing evaporation? Maybe the internal energy of a liquid already evaporated (gas)?
Sorry, where are you referring to? Please provide me a with a timestamp. Thanks!
@@QuestionSolutions i’m referring to 4:12 u_fg.
@@QuestionSolutions please help 🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏
@@JGambrosia It's the change in internal energy during evaporation. Easy way to remember is to see that it's actually just the difference between Ug and Uf, so
Ug - Uf = Ufg.
Hello, in the second example you used the same equation to find the U1 and U2 by using the table and finding a new quality but did it differently in the first, is there a reason for that or both can be applied. Thank you very much for the videos
So you can actually use multiple methods to get to the same answer. I try to show as many as I can, sometimes, I focus on one method, other times, multiple ones. Usually, it's easier to use one over the other, but that doesn't mean it's not useable. Use whichever method you'd like :)
@@QuestionSolutions Oh alright, thanks a lot for the quick reply.
do you think in the last problem you missed showing a dot? it is about rate of change.
Yes, rate change should have a dot on top.
For the last question how come Shaft work is a + and not a negative?
Shaft work being negative here would mean the process is creating energy, like a turbine spinning to produce electricity. In this case, both the heat transferred to the oil and the stirring device is using up power.
@@QuestionSolutions I see! Thank you so much!
I wish I could give you my university tuition, as you help more than my professors
😅 Haha, but on a more positive note, I am really glad these videos help you out.
Need Air Compressor & Nozzle lectures.
That's far ahead because those topics fall under power cycles. I hope to get them done, but we will see 👍
how do you know q+w but you write q-w
I don't know where you're referring to. Please use timestamps.