Well magnetic motors providing perpetual motion are a feasible solution or at least graduate from the numerous numbers of ideas on providing a free energy solution but....
How do you start repairing a life-size usable magnetic motor? You use plastic tools or tools not easily magnetized? How far from the main building should these magnets be placed in order to be at a safe distance because I don't wanna lose my car or car keys after they get sucked in by the strong magnet ... isn't it weird ? How do you build around these issues because a lot of stuff we use on a daily basis are made of metals which are atrracted to magnetic fields ..
I think the trick is to USE the magnetic forces, not let them grow out of hand. Trains do fine, with huge engines.
Quote from: samawati on November 16, 2009, 11:45:22 AM
Well magnetic motors providing perpetual motion are a feasible solution or at least graduate from the numerous numbers of ideas on providing a free energy solution but....
How do you start repairing a life-size usable magnetic motor? You use plastic tools or tools not easily magnetized? How far from the main building should these magnets be placed in order to be at a safe distance because I don't wanna lose my car or car keys after they get sucked in by the strong magnet ... isn't it weird ? How do you build around these issues because a lot of stuff we use on a daily basis are made of metals which are atrracted to magnetic fields ..
I recently read a book from a local library, on rebuilding very large electric motors
and generators. Actually, reading the book was a trip. Their main suggestion
was to document thoroughly how various copper coils windings were formed during
the tear down process, as it is often impossible to fathom how the coils were
contrusted after the coils are removed from the armature. Electrical components
are then dipped in insulating material then baked in a large electric oven.
:S:MarkSCoffman
You could ask Lynch:
http://www.lemcoltd.com/