Tri-gate energy gain
Loading...
Link to this comment:
Uploader Comments (frenkystromar)
All Comments (13)
-
Very simple test
-
@EverythingInane The pendulum has not gained energy from the magnets, it has gained energy from the hand that had to do more work to put the pendulum in a position of higher magnetic potential energy.
You're ignoring magnetic potential energy, which is exactly as silly as ignoring gravitational potential energy. It's like saying a pebble gains kinetic energy when it falls, if I can just cleverly harness repeated falling(ignoring the work you have to do lifting the pebble) I have free energy.
-
set the magnets in the same curve as the swinging pendulum (not flat on the table) and it may go higher?
1 year ago 2
-
Does it reach a height above that which it is reaeased from? If there was a g or f force acting on it on the way up, it would also be also acting on it on the way down. Consider a 100g weight on a spring released vertically, it would not reach a height above that frm which it was released - unless wrk was applied to it (vertically). Disregard the acc and decc forces of friction and gravity (they are cancelling and applied equally and oppositely in each vector of harmonic motion).
-
(and the movement of the magnets of course is necessary to keep the opposite end of their polarity from interefering with the movement)
-
energy the magnets give is greater than the energy consumed in rotating/moving/etc. the magnets to position them in a way that they can give their energy again, and again, and again..
-
This video illustrates a concept that argues for perpetual motion against the typical "but the conservation of energy says.." response. You see, the pendulum has gained energy from the magnets, correct? because it got farther. Yet the magnets retain the same power, the same energy. it has not been transferred "out" of them. so energy has been created. If you are clever, I think you could possibly create a system that uses this slight gain to stay in motion, as long as the
-
Tri gates don't = free energy. All you are doing is making a magnetic spring. The force that you apply pushing the roller to the gate is like compressing a spring. Once you get it past the gate it shoots to the other end. Just like releasing a compressed spring. It will travel some distance but it will eventually loose the compressed energy and not have enough force to continue. Thats why it doesnt work when you line up 10 or 20 gates. The energy that you put buy pushing it to the gate runs out.
-
even on a horisontal axis. Or with a counter weight as friction reducer?
-
This is a clever little experiment.
- 3:11Magnet Motor - Calloway V Gate : 02by DustAid760,888 views
- 1:01Brief Video of the Tri-Force Gateby visualtim3,010 views
- 2:33Tri-Force Gateby Daniel0066667,325 views
- 0:45My Magnet Motor Free Energy Studyby robgallagher806,608 views
- 4:34Magnetic Gateby Eltimple129,527 views
- 0:52with 3 gatesby mpavenir1,276 views
- 0:10Sm0ky2's Extended Tri-Force Gate (x4)by Sm0ky25,111 views
- 1:26Clanzer clearing 33 Tri-Gatesby Seacrhing2008112,495 views
- 2:21magnet wheel v-gate replica (Frl.)by ardan3770,479 views
- 1:04ZERO PMG - TEST RUN 4by Blueskyh2o159,566 views
- 6:19Magnet motorby ankcjg3,816 views
- 3:32V-Track · meccano structure · 3 gatesby umsiadbintoo132,664 views
- 2:06tri-gate demo1by ankcjg1,127 views
- 0:30Tri gateby JabbTheWocky1,274 views
- 4:47Permanent Magnets Doing Workby AdminOnDuty4,626 views
- 1:56SMOT #1by KlugManfred25,693 views
- 0:41Another Clanzer experiment from 2007by Seacrhing2008789,278 views
- 9:42Size , Shape , AND Weight of pendulum Does matterby RHEAD1001,960 views
- 1:35Halo 3 - Secret Trigate On The Covenantby Generalkidd12,663 views
- 0:21Magnetic motor spinning discby Larskro238,675 views
do you have any plans to try a rotor?
wopwops0482 3 years ago
No, because friction loss is bigger than energy gain.
frenkystromar 3 years ago