Hi. I suggest that you made the same video with (input and output) work measurements!
You need 2 (slow motion) camera(s) and precise scale behind pendulum to measure input work.
Then glass bucket with scale to measure volume (mass) of the pumped water. Then large electronic clock behind entire apparatus to sync 2 video cameras with math calculations.
2. additional height trajectory (delta h = dh; dA=m*g*dh = additional work) of the pendulum made by hand wich push pendulum UPSIDE in front of the scale behind pendulum. (You need delta h precisely measured and recorded for every single oscillation ). Do not push pendulum downside like you do it on this video because its easier to measure additional height with upside push.
You need to do upside pushes of the pendulum in the moment when it reaches maximum height (amplitude) and almost stop! In that moment camera will record additional heights (delta h) with the smallest error!
Measurements can be done from the recorded slow motion video.
After that do the math for input and output work ...
I get that this machine multiplies force by exploiting the natural gravitational pull of the pendulum, but is it at all physically possible to redirect just a fraction of the output force to keep the pendulum swinging?
The way that this pump operates is inneficient because the pump needs to turn say 5 degrees for the valves to open and close . Use a smaller pump , and arrange it to turn through as many degrees as possible . |Much less wasted energy .
it seems to be doing a lot but its a big weight and a small pipe, looks impressive, not... bit like a 5yr old child lifting a car with a jack, similar physics here.
It doesn't seem like that pump arm is moving enough to generate the pumping action until you move back and see the head on that water. Pretty impressive and very small application of power to keep it moving...
Question: Why do they take a wheel with an eccentric weight and have it with a small engine to run best but horizontally. You can achieve an even higher efficiency. You have to find only the resonance with a speed control.
Hi. I suggest that you made the same video with (input and output) work measurements!
You need 2 (slow motion) camera(s) and precise scale behind pendulum to measure input work.
Then glass bucket with scale to measure volume (mass) of the pumped water. Then large electronic clock behind entire apparatus to sync 2 video cameras with math calculations.
astroshima1 1 month ago
It's enough for cameras to record:
1. just a few pendulum oscillations!
2. additional height trajectory (delta h = dh; dA=m*g*dh = additional work) of the pendulum made by hand wich push pendulum UPSIDE in front of the scale behind pendulum. (You need delta h precisely measured and recorded for every single oscillation ). Do not push pendulum downside like you do it on this video because its easier to measure additional height with upside push.
3. Start and end level of water in glass bucket
astroshima1 1 month ago
You need to do upside pushes of the pendulum in the moment when it reaches maximum height (amplitude) and almost stop! In that moment camera will record additional heights (delta h) with the smallest error!
Measurements can be done from the recorded slow motion video.
After that do the math for input and output work ...
Good Luck!
astroshima1 1 month ago
I get that this machine multiplies force by exploiting the natural gravitational pull of the pendulum, but is it at all physically possible to redirect just a fraction of the output force to keep the pendulum swinging?
7F0X7 1 month ago
The way that this pump operates is inneficient because the pump needs to turn say 5 degrees for the valves to open and close . Use a smaller pump , and arrange it to turn through as many degrees as possible . |Much less wasted energy .
G0HPV 2 months ago
I thought this was the band xD
punchatomic 8 months ago
why not hook a pendulum to a one way gear that uses its own weight and momentum to pump the water
ChiLLaXN1337 10 months ago
There is already a commercial application of this concept by a company called the Gravitational Energy Corporation.
ebonfyre 1 year ago
Very nice. I like this video.
Like I said before it is an obvious OVER UNITY device.
Congratulation.
causevskinikola 1 year ago
@causevskinikola - except of course it is not an over-unity device for several reasons.
LiamXaoh 6 months ago
very little effort yes, but efficient... no....
it seems to be doing a lot but its a big weight and a small pipe, looks impressive, not... bit like a 5yr old child lifting a car with a jack, similar physics here.
lezbriddon 1 year ago
It doesn't seem like that pump arm is moving enough to generate the pumping action until you move back and see the head on that water. Pretty impressive and very small application of power to keep it moving...
HybridWaterMan2 1 year ago
Hello Mr. Veljko Milkovic
Beautiful machine.
Question: Why do they take a wheel with an eccentric weight and have it with a small engine to run best but horizontally. You can achieve an even higher efficiency. You have to find only the resonance with a speed control.
Greetings Werner
eisenplastik 1 year ago
Very nice 'n smooth. there must be 50 million people who need one of these in action, daily - whether hand or machine powered.
KyleCarrington 1 year ago
Veljko is getting on in his years. It's nice to see that he is still able to operate his own equipment.
Zalo10 1 year ago