The inventor and historian Veljko Miljković was the first person to research the undergorund tunnels of the Petrovaradin Fortress. In his rich amateur guiding career he guided a large nimber of locals as well as tourists through the mysterious tunnels.
After years of experimenting, optimal solutions were tested by the prototype and a rational and ultra edficient pendulum adaptable for gyms was created (New sport for pure energy - the possibility of practical application). It can also be used as a mechanical amplifier for alternative sources of energy (wind oower, hydro-potential...) Besides, there are some new advanced solutions (such as magnetic-gravitational hybrides) and other know-how solutions from the same field that are enormously applicable.
Hi 'lookatthewholething' I am Chaplain with the Catering Corps, Dad's Army R.M.P.T.A. section. We Police the Kitchens! A nice heavy ten tonne pendulum, preferably two swinging in counter oscillation to balance structural loads..blah. The pivot is sprung and damped with knitted steel sock dampers inside the springs. Result the pivot box gets hot enough to grill burgers, boil kettles,etc. Guests asked to give the pendulum a gentle shove now and then. Conservation Laws need scrapping! NOW!
@remy130 jednostavno objasnjeno: ovde sa puno manje ulozene snage (rucne) mozes dobiti istu kolicinu vode iz zemlje, posto glavni izvor energije za ispumpavanjem vode obezbeduje gravitaciona sila zemlje. Znaci puno lakse ispumpati istu kolicinu vode nego sa klasicnom metodom ispumpavanja. Fizicko klatno je genijalan stvar za konverziju gravitacione sile zemlje u mehanicku energiju.
We would like to inform you, that we have achieved forty times longer oscillation by using the elastic pendulum in comparison with the ball bearing / roller bearing pendulum. Respectfully Milkovic Pendulum center
i'm not a physicist but here's a little idea that might make the pendulum water pump even more efficient. please take a look at this diagram: i.imgur.com/yPmQQsC.png so here's how it would work: 1. you swing the pendulum with the yellow handle to put the initial energy in the system 2. the water that is extracted to an elevated level above the pendulum is stored in a container so it could provide a steady stream of water. this stream of water is used to give a little push to the pendulum each time the pendulum swings under the steady stream of water that the red part of the diagram provides. 3. the water that was used to move the pendulum is captured in another container (orange part) which will store the water for drinking or irrigation. the system can be used for oil extraction or any material who we want to extract from a depressed location such as coal or ore. the extracted material can be used to swung the pendulum when it falls from above while the "hammer" part energy will be used to elevate the material with the help of step elevator. there are a lot of tweaks that needs to be made but this is the concept behind it. thanks for reading!
If you pumped water normally, you would get tired in a minute. It is much easier to swing a pendulum with one hand. The difference in energy input is large.
It is so unfortunate that many people do not understand science and mathematics. What is happening in this machine is that the integrated work done on the pendulum over the LONG half period of the pendulum is given as output in a SHORT time to the pump. Now since the length of time pushing the pendulum is LONGER than the time the pump swings, then the force on the pendulum can be less than the force used intermittently on the pump. A better manner is to link the pump directly to a light lever where the force on the lever will be reduced by the mechanical advantage used in the lever. But a light lever cannot store energy and so the source needs the forces available at the time of want, so if one turns the lever into a heavy pendulum, then an even lighter force would be used to store energy at the time when the pump is not being force to pump and then the memorised or stored energy in the pendulum over a long time would be given out quickly with a larger force and a shortened operational time on the swing of the pump. A still better way, is to make a large flywheel ( a compound pendulum really) instead of a simple pendulum such that the input is given by a small force over a longer time during the whole revolution of the flywheel. Then a small crank on the flywheel would be linked to the pump with a short up stroke. Now the integral of the work done by a small force over a long time in one revolution stored in the flywheel would be given out at a higher force during the short integral over a short time of the pumping stroke. So the morale of the whole concept is to have a device, pendulum or flywheel in which one can store energy by applying a small force over a long time and then use the memorised or stored energy in a shorter time at a higher force. I hope this helps and will rid of the complexity in people's minds to try and break a nut with a sledgehammer,. So store energy through a small force over a long time and use it in a shorter time at a greater force. Good luck all and as it 24 th December 2015, a day to Christmas, well happy Christmas, good health and peace for the days that are to be, and to proceed pumping with integrals of small forces over a long length of time, during a period when output is not required.
+Carmel Pule' What about using a hand operated miniature pump jack? It has a flywheel and a cam brings the sucker rod up and down in whatever length of travel desired...
+Michael Carouth pump jack water pump www.google.com/search?q=pump+jack+water+pump&num=50&newwindow=1&source=lnms&tbm=isch&sa=X&ved=0ahUKEwjy4IC-u5fLAhVKLyYKHWUNCg8Q_AUICCgC&biw=1422&bih=692&dpr=0.9
yet another great example of the ... Obviously riding a swing would be far easier than pushing that tiny pendulum the whole time. a crank can be used to translate the slower, more forceful thrusts into a higher speed oscillation on the tiny pump
Yep, right now I think he looses much of the gain this could make because of a relative small pendulum, too much is absorbed in friction and such. Plus its easier pushing a longer pendulum at a small angle than a short one at almost 180 degrees. Efficiency follows with that...
The ide isn't to create free energy or anything just to change kinematics to more human friendly form...Not sure if this achieves that and this probably isn't meant for young healthy people who are in a hurry but its an interesting device for sure.
Damn !!!! I like that idea. Now I just wish I had made mine bigger than I did. It is only 9 feet high and weighs over 900 pounds with a 130 pound pendulum. Check out the videos on my site here on you tube.
@@homevideossbiz6841 1200 liters per hour is about 7,600 gallons per day - that is great. I'm a little unclear about the maximum lift height. From a well, it might be the 30 or so feet of maximum suction to the pump. Pushing higher from the pump - I'll bet if can swing the pendulum that the piston will pump til it bursts. Any idea how the swinging pendulum could be adapted to a water powered pump? Dave from Water Powered Pumps public facebook group - this pump was just given as an example of a reliable and efficient pump in this linked thread - thanks. facebook.com/groups/240458583255303/permalink/560534457914379/
Pozadinska muzika ocajna. Bolje da ste stavili naraciju na srpskom jeziku. Uredjaj odlican, pa cak moze se reci: genijalan. Delovi filma (klipovi) prekratki. Ne mogu se nesmetano analizirati izgled uredjaja zbog cestih promena (rez). Nedostaje prikaz uporedjivanja sila koja su potrebna za pumpanje vode (bez overunity sprava). Dobro bi bilo prikazati kolko puta je lakse pumpati vodu sa klatnom nego bez. Naizgled se cini da treba ista kolicina ulozene energije (rada). To je opticka varka. Ovaj nacin dobijanje kineticne energije je genijalnija i od nuklearne energije. To kazem iskreno i ozbiljno.
+Odouls77 i think that this pendulum is saving you from geting tired of pumping ! It is a great ideea ! Perpetual motion ideas will help you ven better !!!
Perpetual motion machines are self-driven and can run without external force applied on them. As you see, he is still applying the work. He should leave it alone to work by itself, perpetually. Sir.
This a great workout. We should harness all the free energy people use on exercise machines in gyms and spas. Come on over to my place and I'll let you pump water and generate electricity for a modest fee. Hmmm
@Ulianot S obzirom na genijalnost ideje, neznam da li su praktikovali to na nasim decijim igralistima bilogde :( Voleo bi videti video o konkretnoj primeni. U 3DSMAX Reactor simulatoru sam napravio model dvostepenog mehanickog oscilatora: [youtube.com]/[watch?v=][rSZNV26IS9Y] (ukucajte bez "[" i "]" znakova).Pomocu program mehanickog simulatora moguce uraditi razne eksperimente mehanickih uredaja. Prednost: besplatno je i sto je najbitnije, verodostojno.
Ovo nije nikakav naučni dokaz. Napravio sistem poluge koji je kamufliran kretanjem klatna. Njemu se klatno kreće pola metra dok se klip na pumpi pomera nekoliko centimetara. U tome je tajna njegovog "malog" rada. Kad se izračuna rad koji vrši pomerajući klatno pola metra levo desno dobiće se isti rad koji vrši klip pumpe umanjen za trenje.
Wast of my time. All this just to pump water. You can do the very same thing by simply eliminating all this and pumping the handle on the very same pump. No more work than standing there moving the pendulum. If the pendulum will move on it's own this guy sure did not demonstrate it.
Nije isto. Ako si ikada pumpao vodu onda znas koliko ti snage treba i koliko mozes da pumpas pre nego se umoris. Ovako mozes sa jednom rukom da ljuljas klatno citav dan. Moze i malo dete da ljulja klatno.
The inventor and historian Veljko Miljković was the first person to research the undergorund tunnels of the Petrovaradin Fortress. In his rich amateur guiding career he guided a large nimber of locals as well as tourists through the mysterious tunnels.
Over 500 companies produce machines which operate on the principle of two-levelled mechanical oscilator invented by Veljko Miljković.
Fantastican izum. Ovaj nacin dobijanja kineticke emergije genijalniji je i od nuklearne energije
The inventor and historian Veljko Miljković was the first person to research the undergorund tunnels of the Petrovaradin Fortress. In his rich amateur guiding career he guided a large nimber of locals as well as tourists through the mysterious tunnels.
What, you've got to stand there all day swinging that pendulum? You've got to be kidding?
Oscilating pendulum can also be observed as fractal rotation, which is fantastic!
After years of experimenting, optimal solutions were tested by the prototype and a rational and ultra edficient pendulum adaptable for gyms was created (New sport for pure energy - the possibility of practical application). It can also be used as a mechanical amplifier for alternative sources of energy (wind oower, hydro-potential...)
Besides, there are some new advanced solutions (such as magnetic-gravitational hybrides) and other know-how solutions from the same field that are enormously applicable.
I think that Veljko Milković is a greater inventor than the great Tesla
Hi 'lookatthewholething' I am Chaplain with the Catering Corps, Dad's Army R.M.P.T.A. section. We Police the Kitchens!
A nice heavy ten tonne pendulum, preferably two swinging in counter oscillation to balance structural loads..blah.
The pivot is sprung and damped with knitted steel sock dampers inside the springs. Result the pivot box gets hot enough to grill burgers, boil kettles,etc.
Guests asked to give the pendulum a gentle shove now and then. Conservation Laws need scrapping! NOW!
@remy130 jednostavno objasnjeno: ovde sa puno manje ulozene snage (rucne) mozes dobiti istu kolicinu vode iz zemlje, posto glavni izvor energije za ispumpavanjem vode obezbeduje gravitaciona sila zemlje. Znaci puno lakse ispumpati istu kolicinu vode nego sa klasicnom metodom ispumpavanja. Fizicko klatno je genijalan stvar za konverziju gravitacione sile zemlje u mehanicku energiju.
We would like to inform you, that we have achieved forty times longer oscillation by using the elastic pendulum in comparison with the ball bearing / roller bearing pendulum.
Respectfully Milkovic Pendulum center
Dali imate stroj za veće dubine 100-200 metara?
You should make a big one that has a swing, that way you could have the kids swing and bring up water. Win-Win situation!
i'm not a physicist but here's a little idea that might make the pendulum water pump even more efficient. please take a look at this diagram:
i.imgur.com/yPmQQsC.png
so here's how it would work:
1. you swing the pendulum with the yellow handle to put the initial energy in the system
2. the water that is extracted to an elevated level above the pendulum is stored in a container so it could provide a steady stream of water. this stream of water is used to give a little push to the pendulum each time the pendulum swings under the steady stream of water that the red part of the diagram provides.
3. the water that was used to move the pendulum is captured in another container (orange part) which will store the water for drinking or irrigation.
the system can be used for oil extraction or any material who we want to extract from a depressed location such as coal or ore. the extracted material can be used to swung the pendulum when it falls from above while the "hammer" part energy will be used to elevate the material with the help of step elevator.
there are a lot of tweaks that needs to be made but this is the concept behind it. thanks for reading!
There is no free energy displayed here when a man has to constantly apply force on the pendulum to produce pumped water flow!
If you pumped water normally, you would get tired in a minute. It is much easier to swing a pendulum with one hand. The difference in energy input is large.
Pitanje: da li se moze stalni magnet koristiti za proizvodnju kineticke energije po istom metodu po kojoj funkcionise ova pumpa?
moze se sine.
It is so unfortunate that many people do not understand science and mathematics. What is happening in this machine is that the integrated work done on the pendulum over the LONG half period of the pendulum is given as output in a SHORT time to the pump. Now since the length of time pushing the pendulum is LONGER than the time the pump swings, then the force on the pendulum can be less than the force used intermittently on the pump.
A better manner is to link the pump directly to a light lever where the force on the lever will be reduced by the mechanical advantage used in the lever. But a light lever cannot store energy and so the source needs the forces available at the time of want, so if one turns the lever into a heavy pendulum, then an even lighter force would be used to store energy at the time when the pump is not being force to pump and then the memorised or stored energy in the pendulum over a long time would be given out quickly with a larger force and a shortened operational time on the swing of the pump.
A still better way, is to make a large flywheel ( a compound pendulum really) instead of a simple pendulum such that the input is given by a small force over a longer time during the whole revolution of the flywheel. Then a small crank on the flywheel would be linked to the pump with a short up stroke. Now the integral of the work done by a small force over a long time in one revolution stored in the flywheel would be given out at a higher force during the short integral over a short time of the pumping stroke.
So the morale of the whole concept is to have a device, pendulum or flywheel in which one can store energy by applying a small force over a long time and then use the memorised or stored energy in a shorter time at a higher force.
I hope this helps and will rid of the complexity in people's minds to try and break a nut with a sledgehammer,. So store energy through a small force over a long time and use it in a shorter time at a greater force.
Good luck all and as it 24 th December 2015, a day to Christmas, well happy Christmas, good health and peace for the days that are to be, and to proceed pumping with integrals of small forces over a long length of time, during a period when output is not required.
+Carmel Pule' What about using a hand operated miniature pump jack? It has a flywheel and a cam brings the sucker rod up and down in whatever length of travel desired...
+Michael Carouth
pump jack water pump
www.google.com/search?q=pump+jack+water+pump&num=50&newwindow=1&source=lnms&tbm=isch&sa=X&ved=0ahUKEwjy4IC-u5fLAhVKLyYKHWUNCg8Q_AUICCgC&biw=1422&bih=692&dpr=0.9
yet another great example of the ...
Obviously riding a swing would be far easier than pushing that tiny pendulum the whole time. a crank can be used to translate the slower, more forceful thrusts into a higher speed oscillation on the tiny pump
Yep, right now I think he looses much of the gain this could make because of a relative small pendulum, too much is absorbed in friction and such. Plus its easier pushing a longer pendulum at a small angle than a short one at almost 180 degrees. Efficiency follows with that...
Genius :D
OK, what good is this if you have to stand there and work to get the water?
hey can u provide me with details to make this as a projec
same way an oil rig runs only the pendulum aounterbalance constantly rotates
The ide isn't to create free energy or anything just to change kinematics to more human friendly form...Not sure if this achieves that and this probably isn't meant for young healthy people who are in a hurry but its an interesting device for sure.
Damn !!!! I like that idea. Now I just wish I had made mine bigger than I did. It is only 9 feet high and weighs over 900 pounds with a 130 pound pendulum. Check out the videos on my site here on you tube.
Nice pump. What is the practical depth water can be lifted?
1200 l per h
@@homevideossbiz6841 1200 liters per hour is about 7,600 gallons per day - that is great. I'm a little unclear about the maximum lift height. From a well, it might be the 30 or so feet of maximum suction to the pump. Pushing higher from the pump - I'll bet if can swing the pendulum that the piston will pump til it bursts. Any idea how the swinging pendulum could be adapted to a water powered pump? Dave from Water Powered Pumps public facebook group - this pump was just given as an example of a reliable and efficient pump in this linked thread - thanks.
facebook.com/groups/240458583255303/permalink/560534457914379/
Pozadinska muzika ocajna. Bolje da ste stavili naraciju na srpskom jeziku. Uredjaj odlican, pa cak moze se reci: genijalan. Delovi filma (klipovi) prekratki. Ne mogu se nesmetano analizirati izgled uredjaja zbog cestih promena (rez). Nedostaje prikaz uporedjivanja sila koja su potrebna za pumpanje vode (bez overunity sprava). Dobro bi bilo prikazati kolko puta je lakse pumpati vodu sa klatnom nego bez. Naizgled se cini da treba ista kolicina ulozene energije (rada). To je opticka varka. Ovaj nacin dobijanje kineticne energije je genijalnija i od nuklearne energije. To kazem iskreno i ozbiljno.
Bravo! Now let's see a bigger one, with a child's 'swing' as the 'pendulum'!:-) Make useful work into play.
koukou clock helps your pump.
This is just a hand pump. There is no energy increase from the pendulum.
+Odouls77 i think that this pendulum is saving you from geting tired of pumping ! It is a great ideea ! Perpetual motion ideas will help you ven better !!!
Perpetual motion machines are self-driven and can run without external force applied on them. As you see, he is still applying the work. He should leave it alone to work by itself, perpetually. Sir.
@x250f23x i would have to say that is a really good idea.
This a great workout.
We should harness all the free energy people use on exercise machines in gyms and spas.
Come on over to my place and I'll let you pump water and generate electricity for a modest fee.
Hmmm
A flywheel would do the same thing. without the herki jerk nature. A bicycle with an eliptical sprocket would help.
This video is about 3 mins too long.
@Ulianot S obzirom na genijalnost ideje, neznam da li su praktikovali to na nasim decijim igralistima bilogde :( Voleo bi videti video o konkretnoj primeni. U 3DSMAX Reactor simulatoru sam napravio model dvostepenog mehanickog oscilatora: [youtube.com]/[watch?v=][rSZNV26IS9Y] (ukucajte bez "[" i "]" znakova).Pomocu program mehanickog simulatora moguce uraditi razne eksperimente mehanickih uredaja. Prednost: besplatno je i sto je najbitnije, verodostojno.
Ovo nije nikakav naučni dokaz. Napravio sistem poluge koji je kamufliran kretanjem klatna. Njemu se klatno kreće pola metra dok se klip na pumpi pomera nekoliko centimetara. U tome je tajna njegovog "malog" rada. Kad se izračuna rad koji vrši pomerajući klatno pola metra levo desno dobiće se isti rad koji vrši klip pumpe umanjen za trenje.
🤔 .. with Tesla valves tube.
Haha, wat?😂
Jače bre to zapni, slabo ti ide voda!!!
ROTFL
Wast of my time. All this just to pump water. You can do the very same thing by simply eliminating all this and pumping the handle on the very same pump. No more work than standing there moving the pendulum. If the pendulum will move on it's own this guy sure did not demonstrate it.
Ovde neki nekog zajebavaš!? Šta je ovo ako Boga znate?! Pumpa preko poluge ili ovako ista stvar...smešni ste
Nije isto. Ako si ikada pumpao vodu onda znas koliko ti snage treba i koliko mozes da pumpas pre nego se umoris. Ovako mozes sa jednom rukom da ljuljas klatno citav dan. Moze i malo dete da ljulja klatno.
Over 500 companies produce machines which operate on the principle of two-levelled mechanical oscilator invented by Veljko Miljković.
The inventor and historian Veljko Miljković was the first person to research the undergorund tunnels of the Petrovaradin Fortress. In his rich amateur guiding career he guided a large nimber of locals as well as tourists through the mysterious tunnels.