ANET-PDF.PDF
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Epics, wars and maybe alien tech? (Part 3 - Sidenotes) Destroying evidence in the desert - Telegram Document Drop 2 of 4: Sudanese myths, legends and ancient history (Pt 2)
In this continuation of a 4 part doc drop, tied to my upcoming episode of EWAT, we're going to explore the rich and fascinating myths and ancient histories of Sudan, for the following 2 drops and in the final 2, Oman and Yemen.
1) Ancient Near Eastern Texts `Relating to the Old testament' - Edited By James B . Pritchard
2) General History
Of Africa II: Ancient Civilizations of Africa - Editor G.Mokhtar
3) Great Mythologies
of the World - Compiled by Various Professors
4) Nomads and Tribes of the Ancient Near East - Edited by various Editors
5) Standard Dictionary
of Folklore, Mythology and Legend - Funk and Wagnell Company
6) The Sa'Dan-Toraja: A Study of their Social Life and Religion I: Organization, Symbols and Beliefs - Hettie Nooy-Palm
In this continuation of a 4 part doc drop, tied to my upcoming episode of EWAT, we're going to explore the rich and fascinating myths and ancient histories of Sudan, for the following 2 drops and in the final 2, Oman and Yemen.
1) Ancient Near Eastern Texts `Relating to the Old testament' - Edited By James B . Pritchard
2) General History
Of Africa II: Ancient Civilizations of Africa - Editor G.Mokhtar
3) Great Mythologies
of the World - Compiled by Various Professors
4) Nomads and Tribes of the Ancient Near East - Edited by various Editors
5) Standard Dictionary
of Folklore, Mythology and Legend - Funk and Wagnell Company
6) The Sa'Dan-Toraja: A Study of their Social Life and Religion I: Organization, Symbols and Beliefs - Hettie Nooy-Palm
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Google:
A plasma globe emits a
noisy, wide-band Radio Frequency (RF) signal, primarily centered around its internal operating frequency, which is typically between 20 kHz and 100 kHz.
Because it doesn't use a shielded antenna, the globe acts as a "leaky" transmitter. Here is how that "radio" signal works:
1. The Fundamental Frequency
The internal inverter (the miniature Tesla coil) vibrates at a specific frequency to create the high voltage needed for plasma. Most commercial globes operate in the Low Frequency (LF) or Very Low Frequency (VLF) range. If you put an AM radio near the globe, you will hear a loud, steady buzz or hum at this frequency.
2. Harmonics and "Broadband Noise"
The discharge isn't a "clean" sine wave; it’s a chaotic electrical arc. This creates harmonics—multiples of the base frequency—that can stretch well into the Megahertz (MHz) range. This is why a plasma globe can interfere with:
AM/FM Radios: You'll hear static across the dial.
Wi-Fi & Bluetooth: Though these operate at much higher frequencies (2.4GHz), the "EM noise" can sometimes disrupt weak signals.
Touchscreens: The RF field can "trick" your phone or tablet into thinking it’s being touched.
3. The "Near-Field" Signal
Unlike a radio station meant to travel miles, the globe's signal is mostly Near-Field. The electromagnetic field is strongest within a few inches to a couple of feet of the glass. This field is what allows you to light up a fluorescent tube or neon bulb just by holding it near the globe without any wires.
4. Why it isn't a "Real" Radio
A real radio signal carries information (voice or data) via modulation. A plasma globe’s signal is unmodulated electromagnetic interference (EMI). It is essentially "screaming" a single, messy note that drowns out other signals.
Would you like to know how to use a handheld AM radio to map the invisible "dead zones" of the globe's field?
You can map the invisible electromagnetic field of a plasma globe using a handheld AM radio by treating the radio as a probe for
radio-frequency interference (RFI). Since plasma globes emit broadband noise, they effectively "scream" across the AM band.
Step-by-Step Mapping
Tune to Static: Turn on a portable AM radio and tune it to a "dead" spot on the dial where you hear only white noise (no stations).
Approach the Globe: Bring the radio near the globe. You will hear a loud, steady buzz or hum. This is the RFI from the internal high-frequency inverter (usually around 35 kHz).
Find the Signal Drop (Dead Zones): As you move the radio around the sphere, you’ll notice the volume of the buzz changes:
Distance Mapping: The signal strength follows an inverse square law—it gets significantly quieter as you move away.
Polarity Dead Zones: AM radios use a directional internal ferrite rod antenna. If you rotate the radio 90 degrees while keeping it at the same distance, the buzz may suddenly vanish. This "dead zone" occurs because the antenna's null point is facing the globe.
The "Touch" Effect: Have someone touch the globe. You will hear the pitch or volume of the buzz change instantly as the human body acts as a new, larger antenna, reshaping the entire field.
Why This Happens
The plasma globe's central electrode acts as a transmitter, and the oscillating electric field extends several feet past the glass. The AM radio’s circuitry is sensitive enough to pick up these oscillations as audio noise.
Safety Note
Be careful when bringing digital devices (like smartphones or tablets) too close to the globe. The field is strong enough to induce current in their touchscreens, causing "ghost touches" or even crashing the device's software.
A plasma globe emits a
noisy, wide-band Radio Frequency (RF) signal, primarily centered around its internal operating frequency, which is typically between 20 kHz and 100 kHz.
Because it doesn't use a shielded antenna, the globe acts as a "leaky" transmitter. Here is how that "radio" signal works:
1. The Fundamental Frequency
The internal inverter (the miniature Tesla coil) vibrates at a specific frequency to create the high voltage needed for plasma. Most commercial globes operate in the Low Frequency (LF) or Very Low Frequency (VLF) range. If you put an AM radio near the globe, you will hear a loud, steady buzz or hum at this frequency.
2. Harmonics and "Broadband Noise"
The discharge isn't a "clean" sine wave; it’s a chaotic electrical arc. This creates harmonics—multiples of the base frequency—that can stretch well into the Megahertz (MHz) range. This is why a plasma globe can interfere with:
AM/FM Radios: You'll hear static across the dial.
Wi-Fi & Bluetooth: Though these operate at much higher frequencies (2.4GHz), the "EM noise" can sometimes disrupt weak signals.
Touchscreens: The RF field can "trick" your phone or tablet into thinking it’s being touched.
3. The "Near-Field" Signal
Unlike a radio station meant to travel miles, the globe's signal is mostly Near-Field. The electromagnetic field is strongest within a few inches to a couple of feet of the glass. This field is what allows you to light up a fluorescent tube or neon bulb just by holding it near the globe without any wires.
4. Why it isn't a "Real" Radio
A real radio signal carries information (voice or data) via modulation. A plasma globe’s signal is unmodulated electromagnetic interference (EMI). It is essentially "screaming" a single, messy note that drowns out other signals.
Would you like to know how to use a handheld AM radio to map the invisible "dead zones" of the globe's field?
You can map the invisible electromagnetic field of a plasma globe using a handheld AM radio by treating the radio as a probe for
radio-frequency interference (RFI). Since plasma globes emit broadband noise, they effectively "scream" across the AM band.
Step-by-Step Mapping
Tune to Static: Turn on a portable AM radio and tune it to a "dead" spot on the dial where you hear only white noise (no stations).
Approach the Globe: Bring the radio near the globe. You will hear a loud, steady buzz or hum. This is the RFI from the internal high-frequency inverter (usually around 35 kHz).
Find the Signal Drop (Dead Zones): As you move the radio around the sphere, you’ll notice the volume of the buzz changes:
Distance Mapping: The signal strength follows an inverse square law—it gets significantly quieter as you move away.
Polarity Dead Zones: AM radios use a directional internal ferrite rod antenna. If you rotate the radio 90 degrees while keeping it at the same distance, the buzz may suddenly vanish. This "dead zone" occurs because the antenna's null point is facing the globe.
The "Touch" Effect: Have someone touch the globe. You will hear the pitch or volume of the buzz change instantly as the human body acts as a new, larger antenna, reshaping the entire field.
Why This Happens
The plasma globe's central electrode acts as a transmitter, and the oscillating electric field extends several feet past the glass. The AM radio’s circuitry is sensitive enough to pick up these oscillations as audio noise.
Safety Note
Be careful when bringing digital devices (like smartphones or tablets) too close to the globe. The field is strong enough to induce current in their touchscreens, causing "ghost touches" or even crashing the device's software.
This is why the Iranian people celebrate their regime's demise - Paul White Gold Eagle on X
Beautifully put by this gentleman and should give you a fresh perspective of whats going on in Iran?
What he says, is 100% true.
https://x.com/PaulGoldEagle/status/2031799210228793812?s=20
Beautifully put by this gentleman and should give you a fresh perspective of whats going on in Iran?
What he says, is 100% true.
https://x.com/PaulGoldEagle/status/2031799210228793812?s=20
X (formerly Twitter)
Paul White Gold Eagle (@PaulGoldEagle) on X
A brief explanation on why Iranians are celebrating during war.
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Paul White Gold Eagle - A brief explanation on why Iranians are celebrating during war.
A brief explanation on why Iranians are celebrating during war. https://t.co/TjDeVkuC5M
Paul White Gold Eagle - A brief explanation on why Iranians are celebrating during war.
A brief explanation on why Iranians are celebrating during war. https://t.co/TjDeVkuC5M
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9789004504271.PDF
6.6 MB
Epics, wars and maybe alien tech? (Part 3 - Sidenotes) Destroying evidence in the desert: Pre Islamic Arabian Mythology
In this drop tied to my newest episode of Epics, we will look at various academic papers on the ancient myths and deities that were once widespread across the region prior to Islam.
In this drop tied to my newest episode of Epics, we will look at various academic papers on the ancient myths and deities that were once widespread across the region prior to Islam.
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