it's dependent on where the term is used. For example, we use absolute pressure to define pressure that's measured relative to a vacuum. You can read more about this here: www.sciencedirect.com/topics/computer-science/absolute-scale
Sorry to bother you again, but there is one thing that doesn't make sense to me with this equation: If you hold pressure constant and increase volume temperature increases. Please explain, because I intuitively think if pressure is held constant the temperature would rise when volume is reduced not increased! Thank You for all you do.
It's not a bother, though I am not sure how I can explain it. The equation represents real life behavior that an ideal gas follows. Also, make sure you understand the difference between specific volume and volume. When you use volume, the mass value is independent, whereas when you use specific volume, you are finding it per unit mass basis.
I am in thermo right now and I would be so lost without this, thank you so much.
You're very welcome, and thanks for taking the time to leave a comment. I appreciate it. I hope you do amazingly in your course.
@@QuestionSolutions Not a problem, this channel is why I passed dynamics and now thermodynamics.
@@calebsells1731 That's amazing to hear! Keep up the awesome work with your courses. :)
The king has returned.
😅
You are doing wonders mah mens!
Thanks! Best wishes with your studies.
In mechanical engineering we use the word absolute in many subjects ,what it exactly mean
it's dependent on where the term is used. For example, we use absolute pressure to define pressure that's measured relative to a vacuum. You can read more about this here: www.sciencedirect.com/topics/computer-science/absolute-scale
hello Demigod,happy val's day❤❤❤❤❤
Thanks, I wish the same to you!
Good old thermo :)
:)
the besttt
Thank you!
Sorry to bother you again, but there is one thing that doesn't make sense to me with this equation: If you hold pressure constant and increase volume temperature increases. Please explain, because I intuitively think if pressure is held constant the temperature would rise when volume is reduced not increased! Thank You for all you do.
It's not a bother, though I am not sure how I can explain it. The equation represents real life behavior that an ideal gas follows. Also, make sure you understand the difference between specific volume and volume. When you use volume, the mass value is independent, whereas when you use specific volume, you are finding it per unit mass basis.
Still counting
Sorry, what are we counting? :)
@@QuestionSolutions on u