When I decided to check youtube for some thermodynamics videos I didn't think I would find such well structured, well explained and easy to understand play list. Thank you so much for putting this together. You're a legend sir.
Hello, thank you for that. Any of the lessons deals with unsteady Bernoulli: where air flows through orifice from pipe A to pipe B, and volume B has larger diameter than volume A's diameter and volume B is closed? The air is pushed forward like in a cylinder/syringe.
Thank you! So, an isentropic process is both isenthalpic and has no frictional losses, is that correct? if it were isenthalpic but non-reversible, then it would still have no heat loss or gain from the surroundings, but it could have some frictional losses inside of the system. Is that the correct way to think about it?
When I decided to check youtube for some thermodynamics videos I didn't think I would find such well structured, well explained and easy to understand play list. Thank you so much for putting this together. You're a legend sir.
Fricking fast and superb man salute ✌️
Hello, thank you for that. Any of the lessons deals with unsteady Bernoulli: where air flows through orifice from pipe A to pipe B, and volume B has larger diameter than volume A's diameter and volume B is closed? The air is pushed forward like in a cylinder/syringe.
Thank you Handsome boy
Thank you! So, an isentropic process is both isenthalpic and has no frictional losses, is that correct? if it were isenthalpic but non-reversible, then it would still have no heat loss or gain from the surroundings, but it could have some frictional losses inside of the system. Is that the correct way to think about it?
LEGEND
Too bad these didn’t exist last semester.
❤