this was the schema:
+===========================+
| ^
V |
55Ah battery +=> 1x dynamo => 2x dynamo =+
the figure is at: www.geocities.com/dedanoe/Dedanoes_test.html listen,
the 1x dynamo alone with its own resistence is producing 100Spins from
100Watts. When 1x dynamo spins the 2x dynamo the spins in the 1x dynamo
lower down to 80Spins. But those 80Spins in the 1x dynamo are 160Spins
in the 2x dynamo so the 2x dynamo outputs 160Watts. That's successful
breaktrough above the thermodynamic limit of 100% Efficiency. Now when
I close the cycle the 1x dynamo becomes resistor connected to the 2x
dynamo. When the cyclic feed is ON we have:
^
|
P|
R|-------=================== (160% AVAILABLE PRODUCT, 0% USAGE)
O|\ /
D| \ /
U| \ /
C* X====================== (80% AVAILABLE PRODUCT, 80% USAGE)
T| / \
| / \
|/ \
+---*---===================> (0% AVAILABLE PRODUCT, 160% USAGE)
0 USAGE
Left-Up from point 'X' the 160% PRODUCT may drop and Left-Down from
point 'X' the 0% USAGE may climb. But Right-Up from point 'X' the USAGE
may not excide 80% and Right-Down from point 'X' the PRODUCT may not
drop below 80%. The reason is simply the positive tendency left and
negative tendency right. I cannot use more than that I produce but
nevertheless my production trully excides, in ideal case, the 100%
thermodynamic limit. I can simply make the spin ratio 1x:10x so they
will meet in the ideal algrebraic middle of 500% Effect (say real 150%
Effect). In any case the machine is unable to produce permanent growth
for the imbalance. The growth can occur only one time until they meet
their algebraic midlle.
Dobri Karagorgov -- Dedanoe
schizo-paranoid-lever-sex-pert
http://dedanoe.tripod.com
.
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