View single post by Joe Kelley
 Posted: Fri Aug 21st, 2009 12:33 pm
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Joe Kelley

 

Joined: Mon Nov 21st, 2005
Location: California USA
Posts: 6399
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Using electromagnetic coils to move sold iron balls through wind-mill blades (electric generator type wind-mill blades) to keep the weight of the iron ball at the tip on the down side and at the root on the up side, the idea is to see if the input of electric power used to move the iron balls will exceed the output generated by the increase in momentum, plus the increase in power as the iron balls decelerate through the electromagnetic fields in the tubes (plus a possible mechanical advantage of leverage as the weight of the iron balls are on levers at the tips of the blades on the down side, and not at the tips in the up side).

 

The iron balls are shot up from the tips of the blades before the tip reaches bottom dead center. The trajectory of the ball is aimed at the center of a hub. When the ball leaves the tube it is timed to enter a new tube with enough momentum to continue upward and outward to the tip as the blade goes over top dead center and as the blade goes downward to bottom dead center the iron ball decelerates due to gravity, while the iron ball accelerates if the wind-mill is spinning fast enough to cause centrifugal force, and the balance of forces are controlled by adding or subtracting electric load to the electromagnetic field in the tube coils.

 

No iron balls are near the tip of the blades as the blades rotate from bottom dead center to top dead center.

 

The iron balls are decelerated by controlling the load drawn from the electromagnetic coil if centrifugal force is great enough to cause the iron ball not to be motionless by the time the ball reaches the tip, as the blade rotates downward.

 

Seen from a side view the iron balls would be shot upward in each blade of the wind-mill (near the bottom), decelerated by gravity and/or electric load to cause the iron balls to scribe an egg shape; where they are always at the tip of each blade when each blade is half way between top and bottom dead center (90 degrees from vertical, or perpendicular to the gravity vector) and each iron ball is through the center of the hub when each blade is vertically up or down, and no iron balls are in any blades as the blades are moving from bottom dead center upward against gravity to top dead center.

 

 

I'm sending in the idea as a science project