You can assume the power by calculation water amount and available drop height of the water... This will give you the available pure natural energy... multiplied with the effeicency factor of the water power machine - for your modell I would assume a factor of 0.4 at maximum you can calculate the power output... And later get the resistor on, and see if the calculations were correct...
Cool~! My 2G grandfather was Scottish-American, and he built the first grist mill/ wood-cutting mill in Wisconsin Territory.
It's hard to see videos with 90 dislikes. And I can see why. Your channel is amazing!
I really like your videos. You're one of my favorite RUclipsrs.
Thank you, sir, you're the best teacher ...
I LOVE these videos, please don't ever stop making them! :3
Your videos always amaze me. Keep science fun.
excellent video sir!
Very informative video once again thanks a lot.
I love your videos, thank you very much!
I LOVE your videos. Please keep making them :)!!
You can assume the power by calculation water amount and available drop height of the water... This will give you the available pure natural energy... multiplied with the effeicency factor of the water power machine - for your modell I would assume a factor of 0.4 at maximum you can calculate the power output...
And later get the resistor on, and see if the calculations were correct...
your best video as before.
Aren't hydro-electric dams technically water-wheels? Obviously it they don't LOOK like them, but don't they function in similar ways?
Favorited, great job!
Nice!
wow
realy good
how much power did you generate in the stream?
Where did you get the gears from?
anybody else notice the wooden supports look like jenga pieces
@bernytheman I'm sorry. I meant to write 0 dislikes. Anyway, great video.