re: energy producing experiments

[Delburt Phend]

When you say that NASA performed this experiment are you referring to the 'cylinder and spheres' or the Atwood's. Please tell us where we can find that experiment. It is scientifically good etiquette to find the experiment you are referring to and let us look at it.

Frame rates of a camera are not an imagination; they are quite solid data. Does it take 4 frames to pass from one side to the other (of the black square) or does it take 16. Yesterday I collected 215 data points that were to a ten thousandth of a second.  In many of the five data point runs several data points were exactly the same as the other runs.

I have never said that the cylinder can spin faster; the energy of the spheres (when they contain all the motion) increases dramatically. There is a ten fold increase in the energy of the system when the spheres have a mass of one tenth. Watching the restart proves that the spheres contain the original momentum.

The energy increase of the cylinder and spheres occurs in a third of a rotation and in a few tenths of a second; so friction is negligible even with bearings.  When making energy you release the spheres you do not leave them attached and wait for them to slow down.

[Toolofcortex]

Extra energy could perhaps be a possibility, but only in a few ways.

Since static physics is well defined we cant discovr anything, areas to discover have to do with lag of reaction force during impulse.

Now you must finda way tio input a disconnecting flywheel onto a greater flywheel, and find an arrangement where the delay is so delayed
that you actually have time to physically decouple using a system that you make. Thus causing a bug in the system that has a beat frequency.
Using an eccentric wheel, one can translate an intermediate wheel in high tension or no tension zone, and if a squeeze static  wheel is there to limit the movement an oscillation  can be had between it and the input static wheel wich is attached to the input motor.

Now the magic happens when you communicate with the stuff around you, at the magic frequency,This will cause a vacuum to form with the universe and you will take in energy from a localized orberth effect from the universe just as a space probe. Slowing the universe down.

We must find ways to oscillate things in the varying of the acceleration, pulse, the third derivative wich will interact with the universe. For the goal is to use a machine that has a localized orberth advantage,

You like my theory?

[Toolofcortex]

And you cant constantly gain velocity either, at some point you must connect to release the energy and disconnect the output so start back up, and so on. In a sawtooth fashion.

Lets say the third derivative oscillation resonates to soften things, it preps the area for you to suck it in.

[Delburt Phend]

In the Atwood's experiment yesterday: I started with a drive mass on the shaft of 127.9 grams. I recorded five rotations of the wheel and made five runs. I then added 12.8 grams of drive mass and did the runs again. I added similar drive masses seven times. On the average each added gram of drive mass resulted in a gate trip time change of  .000135 seconds.

The adding of 135 balanced grams to the outside diameter resulted in a time change of .0005. So how many grams of drive mass at the 10 mm radius shaft are needed to compensate for the addition of 135 (67.5 both sides) grams at the circumference radius of 97 mm.

So I set up an experiment to collect real data. (This is a different position for the the gate and the flag so the numbers will again change from the previous set up) I rotated the wheel with no balanced mass on the outside circumference of the wheel. The gate tripped at around .0292 sec.

With the 135 g mass added on the outside the gate tripped at around .0298.

I then added 5.72 grams to the drive mass at the shaft; the trip time returned to around .0292 second.

This data corresponded with the data collected yesterday but this added drive mass (5.72 g) directly compensates for the decrease in motion caused by a balanced mass added on the circumference (135 g).

The gate distance is 27 mm and it took .0292 seconds to cover the distance. That puts the velocity at the gate to be .9246 m/sec.  But the wheel surface (where the 135 g is) is inside the gate position by about 90%. So the speed at the surface of the wheel is about .83 m/sec.

So 5.72 grams dropped (2r * pi)  64 mm causes 135 g to accelerate to .83 m/sec.

135 g moving .83 m/sec has: ½ .135 kg * .83 m/sec * .83 m/sec =  .04650 joules of energy

5.72 grams (.00572 kg * 9.81 N/kg) has a force of .0561 N times the distance dropped (20.4 mm * pi) of 64 mm (.064 m) so the energy is  .0561 N * .064 m = .00359 joules

.00359 joules produced .04650 joules

[Delburt Phend]

The experiment is reasonably close to F = ma which would give you .72 m/sec; I could have added another gram of drive mass. The time over which the force acts is almost right on target. I missed my guess by a gram.