Thunderbolts Forum v3.0

Nice one!

Try this one …

[img]https://apod.nasa.gov/apod/image/2401/ngc1232b_vlt_3969.jpg[/img]

NGC 1232

Spiral Galaxy Resonance with Tremendously Low Frequency Electromagnetic Waves


Spiral Galaxy Meissier-83

[img]https://i.ibb.co/d0wVLtb/heic1403a-meissier-83-rotated-small.jpg[/img]

Spiral Antenna

[img]https://i.ibb.co/vDXKLvP/spiral-antenna-small.png[/img]

Spiral Antenna Overlay on Meissier 83

[img]https://i.ibb.co/kGqrG0z/heic1403a-meissier-83-with-antenna-small.jpg[/img]

Resonant frequency calculation:

Archimedian spiral:

[img]https://i.ibb.co/wJmbkcr/geometry-of-archimedian-spiral-antenna.png[/img]

Messier 83 diameter = 118,000 light-years. (radius = 59,000 light-years).

The low frequency operating point of the spiral is determined theoretically by the outer radius and is given by:

https://i.ibb.co/NFnDN5z/spiral-antenna-low-frequency-operating-point.png

r2=59,000 light-years

low frequency = C/(2*pi*59,000 light-years)
low frequency = 2.6975438685 E-6 cycles/year
low frequency = 8.5538549177 E-14 cycles/second (hertz)


Where c is the speed of light. Similarly the high frequency operating point is based on the inner radius giving:

https://i.ibb.co/xS4FbfL/spiral-antenna-high-frequency-operating-point.png

Messier 83 R1 = approximately 10,000 light-years.
therefore:

High frequency = C/(2*pi*10,000)=
High frequency = 1.591550775244 E-5 cycles/year
High frequency = 5.046774401 E-13 cycles/second (hertz)