The ‘falling leaf effect’ happens for both ‘paranormal’ and UFO events.
“What is the Falling Leaf phenomenon?
The Falling Leaf phenomenon refers to a reported sensation where objects, people, or even the environment seem to move or fall in a slow, floating, or zigzagging motion, often accompanied by a sense of weightlessness or altered gravity.
Paranormal events:
In paranormal investigations, the Falling Leaf phenomenon has been associated with:
- Ghost sightings and hauntings
- Poltergeist activity
- Near-death experiences (NDEs)
- Spirit communications or channeling
UFO events:
Similarly, in UFO encounters, the Falling Leaf phenomenon has been linked to:
Witness reports of unusual aerial phenomena
Alien abduction experiences
Close encounters of the third kind (CE3)
UFO landings or takeoffs”
Kevin Cann
10/15/2024
The ‘falling leaf effect’ happens for both ‘paranormal’ and UFO events.
“What is the Falling Leaf phenomenon?
The Falling Leaf phenomenon refers to a reported sensation where objects, people, or even the environment seem to move or fall in a slow, floating, or zigzagging motion, often accompanied by a sense of weightlessness or altered gravity.
Paranormal events:
In paranormal investigations, the Falling Leaf phenomenon has been associated with:
- Ghost sightings and hauntings
- Poltergeist activity
- Near-death experiences (NDEs)
- Spirit communications or channeling
UFO events:
Similarly, in UFO encounters, the Falling Leaf phenomenon has been linked to:
Witness reports of unusual aerial phenomena
Alien abduction experiences
Close encounters of the third kind (CE3)
UFO landings or takeoffs”
Kevin Cann
10/15/2024
PS:
Falling leaves and similar objects fall zig zag, due to uneven mass distribution and a very low weight. Given what is ACTUALLY known about ACTUAL ‘UFOs’ this is a perfect match for the situation: a very uneven mass distribution and very little mass being involved, no matter what
the ‘craft’ looks like.
PPS:
A “falling cloud” of plasma could indeed exhibit zig-zag motion due to various factors:
Plasma dynamics:
- Instabilities: Plasma clouds can experience instabilities, such as electromagnetic or hydrodynamic disturbances, leading to unpredictable behavior.
- Turbulence: Plasma turbulence can cause chaotic motion, including zig-zag patterns.
- Magnetic field interactions: Plasma clouds can interact with magnetic fields, causing changes in direction and speed.
Aerodynamic interactions:
- Air resistance: Plasma clouds interacting with air molecules can experience irregular drag forces, leading to zig-zag motion.
- Electromagnetic scattering: Plasma clouds can scatter electromagnetic radiation, influencing their trajectory.
Ionized gas behavior:
- Ionization and recombination: Changes in ionization levels can affect plasma density and behavior.
- Gas dynamics: Plasma clouds can exhibit complex gas dynamics, such as shock waves or vortices.
Possible explanations for zig-zag motion:
Non-linear plasma oscillations: Non-linear oscillations within the plasma cloud can lead to chaotic behavior.
Plasma blob dynamics: Small, dense plasma blobs can break off from the main cloud, creating erratic motion.
Electromagnetic pulsations: Pulsating electromagnetic fields within the plasma cloud could drive zig-zag motion.