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| Don Smith inventions |
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Posted by: Mozart - 01-27-2024, 12:30 PM - Forum: Alternative & Free Energy
- Replies (4)
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Anyone willing to discuss open working principle and tips for building for 2 of the 3 arrangements, respective method of plasma dipole and method of coil dipole for generation and methods of input control with the output help ?
Also similarities with other inventions which all employ the same principle and observations of phenomena and gain mechanism. Why none of relativistic embracers can have higher output than input and why all that diverge from relativistic theory can show and prove higher output than input.
Simplicity and main focus. Where and how losses are introduced in a generating system ? Power transfer, power distribution, power usage, methods and mechanisms, difference between DC and AC and how they “travel”.
Magnetic force, field and flux, what they are and what they do ?
What is capacitance, inductance, impedance and frequency and how they affect magnetism and electricity, how to manipulate their effects to obtain a certain desired gain being electrical, magnetic or physical ?
Also, explanations of why people ignore to observe magnetic flux in a circuit and always focus on electric side only.
What a disturbance in local environment is and what are the consequences ?
Power in electric circuits:
Kinetic power = Electrical power + Magnetic power
Electrical power = Kinetic power + Magnetic power
Magnetic power = Electric power + Mechanical power
Virtual electric, magnetic and kinetic power ? Methods and practical applications ? What leverage is and how can be applied in electrical circuits ? Conversion versus amplification, understanding the mechanism ?
Anyone ?
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| Caduceus coil |
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Posted by: youshitsune - 01-07-2024, 04:22 PM - Forum: General Talk
- Replies (12)
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I'm having problems producing scalar waves. I use XR2206 function generator as PWM. But, it shorts. Is that problem with frequency or something else?
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| App To Calculate Heaviside One Wire |
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Posted by: JoeLag - 01-02-2024, 07:04 PM - Forum: Alternative & Free Energy
- Replies (4)
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Good day folks. Here is a python program I made to calculate the heaviside component of the one wire system.
Code: import tkinter as tk
from math import pi, sqrt
def calculate_heaviside_component():
# Constants
mu = 1.25663706e-6 # Permeability of free space (H/m)
epsilon = 8.85e-12 # Permittivity of free space (F/m)
c = 1 / sqrt(mu * epsilon) # Speed of light in vacuum (m/s)
# User input
voltage = float(voltage_entry.get())
frequency = float(frequency_entry.get())
# Assume a certain distance from the wire (e.g., 1 meter)
distance = 1 # meters
# Calculate the peak electric field
electric_field_peak = voltage / distance
# Convert to RMS values
electric_field_rms = electric_field_peak / sqrt(2)
magnetic_field_rms = electric_field_rms / c
# RMS Heaviside component (Poynting vector magnitude)
heaviside_component_rms = electric_field_rms * magnetic_field_rms
# Display the result
result_label.config(text=f"RMS Heaviside Component: {heaviside_component_rms:.6f} W/m²")
# Create the main window
root = tk.Tk()
root.title("RMS Heaviside Component Calculator")
# Create widgets
voltage_label = tk.Label(root, text="Voltage (V):")
voltage_entry = tk.Entry(root)
frequency_label = tk.Label(root, text="Frequency (Hz):")
frequency_entry = tk.Entry(root)
calculate_button = tk.Button(root, text="Calculate", command=calculate_heaviside_component)
result_label = tk.Label(root, text="RMS Heaviside Component: ")
# Layout widgets
voltage_label.grid(row=0, column=0)
voltage_entry.grid(row=0, column=1)
frequency_label.grid(row=1, column=0)
frequency_entry.grid(row=1, column=1)
calculate_button.grid(row=2, column=0, columnspan=2)
result_label.grid(row=3, column=0, columnspan=2)
# Run the application
root.mainloop()
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| Ambient Powered AC Amplifier |
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Posted by: JoeLag - 12-08-2023, 02:54 AM - Forum: Alternative & Free Energy
- Replies (1)
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I posted this video on youtube a while back.
And guess what, As messy as it is, I found my circuit diagram! Shared here exclusively if this sort of thing interests you. This was many years ago very early on in my research.
I'm sorry I have a hard time following this many years later, I should of left more notes 
Arg I sucked at schematics, might be a few errors here, Those transistors should be configured as full bridge diode rectifiers with super low forward voltage loss. I think was the idea here.
Looks like I might have to clean this up here is the idea now its coming back to me.
Using electret antenna two separate antennas, Each on its own AC full bridge rectifier build with transistors acting like diodes. Trying to exploit the negative like resistance of a "tunnel" diode. One stage charges a cap and triggers a transistor to pulse another charged up cap from the other rectifier circuit. This outputs a square wave pulse. This pulse once again charges another small cap that triggers a flyback transistor HV supply stage simple joule thief like. This drives the Kapagen coil, That outputs a spark gap more negative resistance, Optimal you can kick start the oscillator with a dead battery for a moment. To start the feedback. The output feeds into a VT acting as "ion valve like" and rectifier cold reaction, but it outputs X-rays and more radiant energy, pulsed into a normal step down transformer for a high current output. Ouuf I really got to remake this schematic but yeah that's what I tried to draw at the time.
I think I should re-explore this now with everything more I learned. I knew nothing about one wire systems and the heaviside component of the wire etc...
I think I may have been on to something good here without really knowing at the time what to do with it....
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