Newman machine motor v1 part #2

Nice english...

The magnetic field strength of the coil regulates the speed of the shaft. If it is weak, there is little force, so it will rotate slowly. If it is strong, then there will be more force. According to the link I provided, the cooling effect reaches a limit (e.g. it does not attempt to go subzero or anything like that), so I would not expect an constant climb in efficiency.

If the machine becomes cooler and generates a gain in energy then what regulates the rotational velocity of the shaft? If the machine becomes cooler then we should expect an increase in efficiency over time. As efficiency increases then we should see dP/dt > 0. Or, the output power should increase and ACCELERATE the shaft. But in Newman's video the shaft rotates at constant velocity. Why is that?

Thanks for the info. Why does observation of a cooling effect imply the conversion of heat energy into mass? How do you decide which machine is the mass producer and which machine is the free electricity generator? It seems that this system would be symmetric in this regard.

Newman machines are quite strange in this regard, since, according to jnaudin.free fr/html/NMac0709.htm, a cooling effect has been observed even with one machine by itself, implying the conversion of heat energy into mass. If this is true, then turning the rotor of one Newman machine by using another Newman machine would create a cooling effect as well.

Not electrically in series, but mechanically in series--use the mechanical rotation of one to rotate the shaft of the other. If you apply mechanical work to the shaft of an electric motor, you will generate a current (like a turbine). So if you apply mechanical work to a Newman machine, won't you be generating new mass? What if the source of mechanic energy for generating new mass is another newman machine?

Suomesta näytät olevan. Niin olen minäkin! Katso minun moottori, se ei ole Newmanin mutta Bedinin moottori, nykyään tekemässä parempaa!

You will be doubling the resistance of the circuit by connecting them in series. If you use the voltage sources from both machines and connect those in series, the current throughout the whole system will be the same. But then these machines will have to be synchronized, when the circuit is closed, both will have to kick. Newman machines do this by converting mass into energy. The thing being converted into energy is the mass of the coil. I don't know if the electrons loose mass too.

LAW 5: Magnetic field produced per mass of conductor is proportional to [length of conductor * current] / [length of conductor * area cross-section of conductor], or simply current / cross-section of conductor.