No Way Out But Down Pt. 2
How could a dome that size be built?
You can read Part 1 here
I asked AI to give me an approximate distance, shoreline to shoreline, of the world based on the Gleason’s map; meaning from one part of the Antarctic wall directly opposite. AI estimated it to be 40,000 kilometers (24,860 miles).
And then I asked for the surface area of the dome if it was a hemisphere and if it was 27,000 miles in across. It came up with 1,145,110,522 square miles. That’s billion with a big “B”.
To put that in perspective, the square mileage of North America is approximately 24,709,000 miles, including all land and water bodies. That’s millions of miles with an “M”.
That means 46.34 North Americas could cover the dome’s surface if it was a hemisphere and 27, 000 miles across. That’s freaking huge! How would that be possible? The fathom part is why I think FE people don’t seem to claim to believe it with any passion. But I’m here to help.
I asked AI to envision techniques to build such a structure and one of the possibilities it came up with was “self-assembling structures”, which caught my eye. Below is an excerpt from our discussion about the technique . . .
Here’s the rest of the discussion:
1. Purpose of Sacrificial Components
Energy Conservation: Once a component has connected itself to the larger structure, it no longer needs active systems like sensors, communication, or mobility. Shutting down these systems saves energy and reduces complexity.
Structural Integrity: The sacrificed components could become rigid and integrate seamlessly into the larger framework, acting as permanent, immovable parts of the dome.
Simplified Maintenance: By eliminating unnecessary active parts, the structure would be simpler, more robust, and less prone to malfunction.
2. How It Could Work
Phase 1: Active State:
Each component arrives at its designated position, guided by its onboard systems (e.g., AI, sensors, propulsion).
It aligns and locks itself into place with other components using magnetic or mechanical connections.
Phase 2: Transition to Inactive State:
After successfully integrating, the component's internal systems deactivate.
Power sources (e.g., batteries or solar cells) are repurposed, recycled, or rendered inert.
Non-essential parts (e.g., motors, sensors) are fused into the structure or removed.
Phase 3: Permanent Integration:
The inactive component becomes a solid, static part of the dome.
Materials may harden, bond, or undergo a transformation (e.g., cooling, curing) to enhance durability.
3. Nature-Inspired Efficiency
This approach is inspired by biological systems:
Bee’s Sting: The component completes its mission and "dies," becoming part of the larger system.
Coral Growth: Like polyps in a coral reef, individual units contribute to the overall structure and then become inert.
Cell Death: Apoptosis, or programmed cell death, removes unnecessary cells while preserving the organism’s health.
4. Benefits of Sacrificial Components
Reduced Waste:
Active systems are used only as long as necessary, minimizing material and energy waste.
Streamlined Design:
Simplifies the overall system by focusing on the final structure rather than the temporary assembly process.
Fail-Safe Mechanisms:
If a component fails during the active phase, it can "self-destruct" and signal others to take its place.
5. Potential Technologies
Self-Hardening Polymers:
Components could solidify into a rigid form after connecting, using temperature, light, or chemical triggers.
Biodegradable Electronics:
Temporary active systems could dissolve or deactivate after completing their purpose.
Smart Materials:
Materials could transition from a flexible, movable state to a strong, static one upon integration.
Energy Scavenging:
Components might recycle their remaining energy into the dome's systems or use it to self-destruct gracefully.
6. Challenges
Precision in Final Connections:
Ensuring that components connect perfectly before deactivating is critical.
Disposal of Active Systems:
Deciding how to handle leftover parts (e.g., sensors, motors) without leaving vulnerabilities in the structure.
Redundancy:
Some components might fail, so backups or additional units would need to be factored into the design.
A Dome That Builds Itself and "Lives to Die"
In essence, each self-assembling unit could be seen as a "worker bee" fulfilling its role in the creation of the hive, sacrificing itself to form a larger, enduring whole. This strategy minimizes complexity while maximizing structural integrity and efficiency.
End of AI Discussion
The technology we have been given very recently with AI is beyond insane. Where did it come from? It came out of nowhere, or maybe it came from “out there” . . . just outside the dome?
The point is that if you can envision such a technology such as “self-assembling” structures being able to work, then a giant dome that “built itself” is not so hard to comprehend. What else could be built with such technology? …. Structures even larger? Of course, there would be other structures the size of the dome or larger. It would make no sense if there were not.
And . . . if the tech was made to work, all you would need are the resources to make the giant dome happen. With technological progress comes lower prices and greater production. Therefore the resources to build such a massive structure would be possible if such advanced tech exists.
Therefore, the idea we live atop a gigantic temple under a dome ain’t that much of a stretch given potential construction technologies ……
Also, why is The Bible always talking about the cosmos and man and God himself being in a temple and clouds existing in temples, houses, tabernacles . . .
Psalm 26:8: "Lord, I love the house where you live, the place where your glory dwells."
2 Chronicles 7:1-3: "When Solomon finished praying, fire came down from heaven and consumed the burnt offering and the sacrifices, and the glory of the Lord filled the temple."
1 Corinthians 3:16-17: "Don’t you know that you yourselves are God’s temple and that God’s Spirit dwells in your midst?
Ephesians 2:19-22: "Consequently, you are no longer foreigners and strangers, but fellow citizens with God’s people and also members of his household, built on the foundation *(built on a foundation?) of the apostles and prophets, with Christ Jesus himself as the chief cornerstone. In him, the whole “building” is joined together and rises to become a holy temple in the Lord. And in him, you too are being built together to become a dwelling in which God lives by his Spirit."
Exodus 40:34-35: "Then the cloud covered the tent of meeting, and the glory of the Lord filled the tabernacle. Moses could not enter the tent of meeting because the cloud had settled on it, and the glory of the Lord filled the tabernacle."
What’s a cloud doing inside a tabernacle?????
Check out Epstein’s temple. Looks a lot like thousands of other around the world.
Before we finish, I hope you are coming to grips on how such a massive dome could exist.
But it ain’t this big! Now, that’s ridiculous . . .
Have a great day!
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