Thank you so much for making a difficult topic fun and easy. You really are saving lives out here! Will be getting an engineering degree thanks to you and your organic chemistry tutor, would be an epic mashup if you two did a video together.
I’m so glad to hear that you found the topic enjoyable and easy to understand! Your kind words mean a lot. It’s wonderful to know that I could contribute to your journey towards an engineering degree. Keep up the great work and best of luck with your studies! 😊 Also, yes, I agree :)
Really good video! Question, at 7:40 you mention that because this is steam we can go right to the superheated water table. Should we still confirm this by using the saturated water table first and observe that at 6000kPa, 600 deg C > Tsat, or can we just assume that steam is by definition a superheated vapor. In one of your other videos you have specifically mentioned superheated steam before, is this always the case or can steam also be a superheated vapor as well depending on the conditions?
Always verify with a saturated water table, and the conditions needed for superheated steam. When you do more problems, you have a pretty good idea of what table to look at, but if you're ever in doubt, double check 👍
A big "Q" is equal to "mq" in other words, mass times small q. Small q, is just q per unit mass. The mass can have a dot on top, if it's a mass flow, so like 10kg/sec. Something that happens per time. In that case, you'd write a big Q with a dot on top.
Hi there ,I have a confusion about at 3:26 here.By saying _Adiabatic compressor_ , what does the question want to say us here? Could you explain me a little bit?
