Edge of Space Falling Bodies Gravity Test

#EOSFBGT

One small step …

Edge of Space Falling Bodies Gravity Test is an experiment to test Galileo’s hypothesis on Falling Bodies like never before – dropping spheres from the Edge of Space (EOS) – To Learn How a Gravity Field is Produced !!!!!!

#DEW, #DiamondAgeofArchitecture, #EdgeofSpace, #Fallingbodies, #GravityRevolution, #GravityTest, #STEAM

#Equivalence

#Fagile

#Yes! #RoundAbout

Ezekiel 1:18  As for their rims they were lofty and awesome, and the rims of all four of them were full of eyes round about.

PRECEDENT:

#Spin

As Felix appears to reach his Terminal Velocity of approximately 729 mph at (T: +50 secs) and begins “Violently Spinning”, the camera switches to show mission control for 9 seconds until (T: +59 secs), while the Spinning continues for another 20 seconds once the camera switches back to Felix.  Amazing Stamina!

Additional Video and Data

Felix’s World Records:

Exit Altitude: 128,100 feet

Free Fall Drop Distance: 119,846 feet

Free Fall Time: 4 minutes, 20 seconds

Maximum Velocity: 833.4 miles per hour (Mach 1.2)!

 

HYPOTHESIS:

“Objects with High Magnetic Permeability will Accelerate Slower.”

PREDICTION:

Falling Bodies due to Earth’s Gravitational Motion will Accelerate until they reach their Terminal Velocity and then begin to Spin, creating a Charge as they pass through Earth’s Magnetic FieldObjects with higher Magnetic Permeability will become Magnetized, spin faster, and fall slower than objects with lower Magnetic Permeability.

SPHERES DESIGN:

1. AISI 1006 Carbon Steel (UNS G10060): (high permeability)           10 cm diameter (hollowed to be 1.0 kg, equal to other spheres)

2. Alloy Steel 52100 (UNS G52986): (not as high permeability)         10 cm diameter (hollowed to be 1.0 kg, equal to other spheres)

3. Aluminum Bronze (UNS C95400): (low permeability)                         10 cm diameter (hollowed to be 1.0 kg, equal to other spheres)

4. Titanium – Ti (UNS R50250): (zero permeability)                                        10 cm diameter (hollowed to be 1.0 kg, equal to other spheres)

DEPLOYMENT PROCESS:

High Altitude Balloon – To Be Determined …

TEST PROCESS OVERVIEW:

  1.  Deploy a High Altitude Balloon to the Edge of Space and Elevate 4 Metallic Spheres each having the same Outside Diameter (10 cm), Surface Texture (Smooth Reflective) and Mass (1 kg) with the only differences between them being a variation in their Checker Pattern Color and their Magnetic Permeability (Ranging from High to Zero).
  2. Simultaneously release the 4 Metallic Spheres using a Barometric Pressure Sensor and then High Speed Video Record the Visual Effects of Gravitational Motion and other Natural Forces (Air Resistance, Electromagnetism) acting upon their Free-Fall Motion.
  3. Utilize High Zoom Lens Cameras to Video Capture (Including Infrared) their Rates of Acceleration, Times they reach Terminal Velocity, Times they begin to Spin, Axis of their Spin Rotations, Rates of Spin, and their Times to Impact the Ground.
  4. Measure their Separations after Impact and any Residual Levels of Acquired Magnetism.

EVALUATE OBSERVED RESULTS:

REPEAT SCALED-UP!

https://twitter.com/CNET/status/1295084161288425472?s=20

Work in Progress …