Thanks for watching. These are my older videos, my teaching style has improved in newer videos. Videos from 5-31 onward I solve as if I was solving it for the first time.
Yes you are correct 300 kPa is between 320 and 280 the values for h_f and h_g can be found using linear interpolation. If your university has the software EES you can use that to find the values
@@SuemonKwok it’s cool you still respond to videos you made years ago. I’m studying for an exam tomorrow and all my classmates been sharing these videos.
@@steelxspider5274 Thanks for watching. Good luck in your exam. These are my older videos, my teaching style has improved in newer videos. Videos from 5-31 onward I solve as if I was solving it for the first time. I show the linear interpolation process as students request so often from 5-31 onward. Originally these videos were designed for students in 2nd and 3rd year of university, it was assumed the students attempted the tutorials and had mastered the foundations already but somehow high school and 1st year students somehow find these videos. So I'm changing videos to cater to beginners in new videos.
@@SuemonKwok I’m a 3rd year at university and I don’t believe I have a good foundation, I think my mind explodes when numbers get swapped with Greek letters, so it’s really nice that u solve them now as if it was the first time. It also doesn’t help if my Professor writes the equations with symbols looking the same like density and pressure are P or specific volume, velocity, volume are all V. Anyways, thank you ❤️
@@steelxspider5274 I encountered the all v issue myself, I try and write it out fully so I don't forget during exams when the stress is high. Also in videos I do it too
Sir you dont know how much of a big life saver you are. Thank you sir
Thanks for watching
hello, i'm korean student . your lecture is sooooo great for my study. thank you :D
Thanks for watching. These are my older videos, my teaching style has improved in newer videos. Videos from 5-31 onward I solve as if I was solving it for the first time.
i dont get one part tho the average specific volume value should be equal to 14L/10kg value but it isnt how does it work
I'm assuming we would also have to Linear Interpolate h_f and h_g since the table doesn't tell their values in 300 kPA?
Yes you are correct 300 kPa is between 320 and 280 the values for h_f and h_g can be found using linear interpolation.
If your university has the software EES you can use that to find the values
@@SuemonKwok it’s cool you still respond to videos you made years ago. I’m studying for an exam tomorrow and all my classmates been sharing these videos.
@@steelxspider5274 Thanks for watching. Good luck in your exam. These are my older videos, my teaching style has improved in newer videos. Videos from 5-31 onward I solve as if I was solving it for the first time. I show the linear interpolation process as students request so often from 5-31 onward.
Originally these videos were designed for students in 2nd and 3rd year of university, it was assumed the students attempted the tutorials and had mastered the foundations already but somehow high school and 1st year students somehow find these videos. So I'm changing videos to cater to beginners in new videos.
@@SuemonKwok I’m a 3rd year at university and I don’t believe I have a good foundation, I think my mind explodes when numbers get swapped with Greek letters, so it’s really nice that u solve them now as if it was the first time.
It also doesn’t help if my Professor writes the equations with symbols looking the same like density and pressure are P or specific volume, velocity, volume are all V. Anyways, thank you ❤️
@@steelxspider5274 I encountered the all v issue myself, I try and write it out fully so I don't forget during exams when the stress is high. Also in videos I do it too
great
Thanks for watching