Nice video! I did not mind the animated voice, and the animated hand was OK, too. The music was a bit distracting, and I really wanted to hear that horn blow! I liked the fact that you showed the solution two ways.
@@simpleengineeringsnippets7102 btw, can i ask a question.. does concentrations of liquid and type of material for the tube affects the stabillity flow of siphon?
Keep in mind that this is a Bernoulli's equation example, viscosity and roughness of the tube has no meaning. In a real siphon, yes they will be important. Not sure what you mean by "concentrations of liquid and type" and "stability flow of siphon". I can say that in a real siphon a lot of things will be important. Sorry I don't have an exact answer for you.
Here is a video that shows the basics. If you want electric power you need to divide the mechanical power (brake) by the motor efficiency. ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-nL2tVI9EjZs.html
Hi. Does position of inlet (L4) have any effect? Also, can you also show what happens when outlet is submerged into another tank filled with liquid? Thannks!
As long as the inlet position (L4) does not violate the assumptions allowing Bernoulli's equation it has no impact. The outlet submerged into another tank is a separate problem. Perhaps I'll do a video on that. Nice suggestion.
Clearly the velocity in the tube will increase and you will result in cavitation that till terminate the siphon action. Kind of the whole point of the example. Best of luck to you.
The music, any kind of music, just gives the brain off message data to process. The speaker speaks too fast, slow it down a little bit. Otherwise this would be a first rate video, I speak this for quality control purposes, not to be mean.