ELECTRICAL PARTICLE GENERATOR

Objective: To overcome the opposing magnetic field problems associated with rotary electrical generators.

PRE-HISTORY TO DEVELOPMENT:

To satisfy Maxwell and Faraday Laws of inductance to produce electrical energy, a magnetic field must pass through a conductor or a conductor must pass or move through a magnetic field. In each case the results are the same. This now establishes the basic operational parameter related to rotary electrical generators.

To design said rotary electrical generator, the following design parameters must be utilized to reach maximum operational performance:

POWER FACTOR OF DESIGN:

1. Strength of Magnetic Field (number of magnetic flux lines)
2. Velocity or speed at which a magnetic field passes through a conductive wire
3. Number of loops or turns per wire-coil
4. Number of pickup coils
5. Energy input to produce and maintain said rotating electromagnetic field (applied electrical energy)
6. Energy input to rotate or move said electromagnetic field (applied mechanical energy)

Point-of-Observation:
*** A magnetic flux line does not show signs of deterioration when passing through an electrical conductive wire.

Observations-Test:
An electromagnetic field emanating from a permanent magnet rotating inside an electrical wire-coil produces electrical energy. Said permanent magnet requires no energy input to maintain said magnetic field, see Thomas Edison generators.

Typical Rotary Electrical Generator: Car Alternator

Operational Characteristics: maximum duty loading

1. Apply 120 watts (12 volts x 10 amps) of electrical power to armature winding to produce said electromagnetic field.
2. Apply 5,222 watts (7 hp x 746 watts) to "start" and "rotate" said armature to move said electromagnetic field through said pickup coils during maximum duty loading.
3. Three rotor pickup coils (300 turns per coil; 3 coils per stator ring array) produces 720 watts (12 volts x 60 amps) output during said maximum duty loading.