Free Energy Presentation v1.0.pdf

Free E nergy Machines V ersion 1 .0 In this video I will explain how to build several free energy machines. No details shall be spared. Th ey are s trictly mec hanical devices (not electric.) (Except for the one b onus concept.) S pecial thank you to Sir Timothy Thrapp , Timothy Martin , D r. J. , and the entire WITTS team. Three forces of free energy: 1. Buoyancy /density differences 2. Gravity 3. Centripetal/centrifugal force 1. B uoyancy Motor T his uses water density for acceleration. This is supposed to be a joke but it really works Of course it is difficult to get a p roper seal on the bottom so you have to add air at the bottom. ht tps://www.lockhaven.edu/~dsimanek/museum/themes/bellows.htm L oc khaven. edu says this is an “ u nworkable idea ” This means that it doesn’t work for the energy mon opoly, because they canno t make money from it. Practical Guide to “ Free Energy ” Devices ( Version: 28.91 Release date: 2 Dec 2015 ) by Patrick J . Kelly , P age 477 You can see there are buckets of water displaced with air. You can run an air lin e or solid air pipe down from the surface of the water. The buckets cou ld be made of concrete and hol d thousands of pounds of water. A small bubble of air do wn ¼ mile be comes very large by the time it comes to the surface. Timothy Thrapp said he build one and put it down into a lake. This machine can produce a lot of power, but requ ires access to deep water (10+ f eet) and stainless - steel parts. So it is expensive to build one that produces a lot of power. Patrick J. K elly Patrick J . Kelly passed away July 11 , 2020. H e has a lot of good information in his PDF book , but as a friend of mine put it, [ mo st of ] the machines require Timot hy Thrapp ’ s in put to get them to actually work. 2. See - Saw Gravity Motor A heavy see - saw is close to being balanced , but the balance shifts from side to side to keep it rocking back and forth. The see - saw (or “ teeter - totter ” ) doesn ’ t move very quickly so you should have a very heavy rocker so it will have a lot of inertia when it comes down. A var iation of this design. The principle of this machine is simple. You use the force of gravity to shift the balance sideways. This machine does w ork but it us es magnets and it doesn ’t produce electricity Perpetual motion art 3. Spinning Gravity Motor A word on building you r machine. Friction adds up quickly. The simpler t he machine is the better. Sliders have a lo t of friction. You can use a bars on a large arc instead of sliders. Ramps do not really work because there is so much fr iction in volved. Only pivots wor k. Th ere is a patent for this machine . Timothy Thrapp said he had one similar to this that worked. The sliders a nd r amps produce a h uge amount of friction, so getting something like this to work would be expensive and impractical 4. Bonus: Pulsing coils on a wheel A w heel is an in teresting machine. Two objects on a wheel can be moving at different sp eeds but r emaining the same d istance from each other. You can pulse coils i n the inside of the wheel and have the m charge coils on the outside. Or vice versa Thank you Timo thy Th rapp for the idea. The blue object moves faster than the green object, b ut they always remain beside each other. Machines that don ’ t work It ’ s clear these machine s will n ot work because they are missing the second axi s and will balance the mselves out. The overbalanced wheel Thi s doesn ’ t work beca use the re are always more weights on the side going u p , so it goes backwards and balance s itself out. This picture is hard to see, but i t is similar to the one be low https://www.youtube.com/watch?v=Upp - Xr5JAg0 5. The Ron Brandt device A fter seeing Ti mothy Thrapp ’ s gra vity moto rs, Ron Brandt built his own using one weight. The device was similar to the one pictured but included a spring. The device was about 9 ” and the weight was a 2 ” round steel cyli nder and about 2 ” long. The spring and second pivot had to be adjust ed to where Ron called the “ s weet spot. ” It wo uld spin up to 200 - 300 RP M . Ron thought it was kind of useless. T hi s device is not only a gravity motor but also a centri petal /cen trifugal force mo tor. I use centri petal /centrifugal because one cannot exist without the other. The force of g ravity is quite weak so centri fugal force m ust be utilized for a working gravity motor. Technically you could ma ke a gravity motor that only ran on the force o f gravity , but because the forces of gravi ty are quite weak it ’ s not easy nor practical. G r avity m otor with spring. https://www.youtube.com/watch?v=c9YLkoJz7rM Ro n Brandt https://www.youtube.com/watch?v=c9YLkoJz7rM v ep roject1 built a model of the device. Bec ause it is missing a spring, it does not ru n on its own power. Also the weight is too small. v eproject1 u ses hidden motors and belts in his machines, but he does make very good models. Ron tried to make it work without a spring but couldn ’ t . He thought it should work without a spring , but I will explain below why the spring is n ecessary. Let ’ s do some math Force of gra vity is constant , but the velocity of the weight changes. The acceleration of the weight depends on the an gle. Gravity power is very wea k but it is harnessabl e. Centripetal/ Centri fugal force There is no such thing as angular moment em or a ngular velocity. It is a summary of what happens when and object turns around a fi x ed radius. Motion always goes straight unless a force is applied to it. For example, when you throw and o bject , it c ontinutes to go straight and gravity pulls it down , and the wind may push on it as well. W hen a spinning object is released, it always goes straight. Here the string , before it broke , applied a n acc eleration 90 degrees to the velocity direction of the object. S o it changed the changed th e angle of the velocity but not its magnitude But the center and the str ing appli ed a real force to the object Energy /work is: Force X distance / time S ince the objec t didn ’ t move in the direction the force was applied , no work was done Similarly, if you set a book on a sur face, the surface negates the force o f gravity on the object, brin ging it to a neutral state. B ut no work is done , because the boo k d id not move The abov e photo d emonstrates how centrif ugal force will oppo se gravity and pro v ide a c ertain amount of lif t. Without friction, it does not require any energy to keep a weight spinning. So the centri fugal force provides f ree e nergy to lif t the weight, however once the weight reaches its maximum h eight (based on the centrifugal force), it doesn ’ t move up or down. So no work is done. The weight would have to be brought down for the c entrifugal for c e to do work by lifting it up again. This brings us to our next section. Bring the weight in and out The centrifugal force exists be t ween the center of rotation a nd the outside. It is the object ’ s in ertia resist ing a change in direction. The heav ier the object, the more inertia, the more resistance to change in direction. When we bring the weight inwards, it rotates faster and the centri fugal force increases. Howeve r, the speed of the weight does not cha nge, but because it has a smaller circum ference to follow, i t takes less time to cover. If we bring the weight outwards, it s speed also remainds the same but the cir cumference is larger so t he rotational speed is reduced. In physics , the speed of the weight is called the tangential velocity. The weight has inertia , which goes straight, and resists change of direction. This makes the weight fly outwards from the center. So the harnessable force is centrifugal force, wh ich is object ’ s resistance to the change of its direction of motion. Because the force is from the inside to the outside, the weight has to be allowed to move ou twards, and then it must be bro ught bac k in for the process to repeat. Ro n ’ s device has two axis . The second axis brings the weight back into the center. When the weight goes to the outside, it c ompresses a spring. The spring is the mechanism which harnesses the centrifugal force. The spring pushes on the weight as it goes in, accelerating the wheel