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https://github.com/radeeyate/earth-core-robot
[School Project] A robot that could go to the core of the earth 🤔
https://github.com/radeeyate/earth-core-robot
Last synced: 6 days ago
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[School Project] A robot that could go to the core of the earth 🤔
- Host: GitHub
- URL: https://github.com/radeeyate/earth-core-robot
- Owner: radeeyate
- Created: 2024-03-10T19:15:31.000Z (8 months ago)
- Default Branch: main
- Last Pushed: 2024-03-10T23:41:36.000Z (8 months ago)
- Last Synced: 2024-03-11T20:42:25.589Z (8 months ago)
- Size: 5.86 KB
- Stars: 3
- Watchers: 1
- Forks: 0
- Open Issues: 0
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Metadata Files:
- Readme: README.md
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README
# Earth Core Robot
[Design Specifications](./design.md)
In the year 2142, humanity's curiosity looked inwards. Project Icarus, a colossal undertaking aiming to delve into the Earth's heart, neared completion. At its core, quite literally, lay BR-723, a technological marvel – a robot crafted from Tantalum Hafnium Carbide, an alloy that can withhold the unimaginable pressures and heat of the mantle.
BR-723, better known as "Coreseeker," was more than just bolts and wires. It housed a smart AI, capable of independent analysis and decision-making. In fact, if something went wrong, like a part breaking, it had sensors to detect it, 3d print new parts, and swap it out. As launch day arrived, the world watched anxiously as Coreseeker, encased in its diamond-anvil-cell-like design, began its descent into the Mariana Trench, the deepest scar on the planet's face.
The descent was agonizingly slow. Every meter conquered was a testament to Coreseeker's resilience. Weeks bled into months as the robot burrowed deeper, the pressure gauge a constant reminder of the immense weight of the world above. The pre-programmed course for the descent unfolded like this:
* Layer: Crust
* Distance to Travel Through Layer: 30 km
* Target Speed Within Layer: 10 km/hr
* Estimated Time to Travel Through Layer: 3 hours
* Temperature: 200-409°C
* Layer Type: Solid
* Layer: Mantle
* Distance to Travel Through Layer: 2,900 km
* Target Speed Within Layer: 20 km/hr
* Estimated Time to Travele Through Layer: 145 hours
* Temperature: 1,000-2,700°C
* Layer Type: Solid
* Layer: Lithosphere (crust and upper mantle)
* Distance to Travel Through Layer: 100 km
* Target Speed Within Layer: 10 km/hr
* Estimated Time to Travel Through Layer: 10 hours
* Temperature: 300-500°C
* Layer Type: Solid
* Layer: Asthenosphere (within mantle)
* Distance to Travel Through Layer: 2,800 km
* Target Speed Within Layer: 20 km/hr
* Estimated Time to Travel Through Layer: 140 hours
* Temperature: 1,300-2,200°C
* Layer Type: Solid
* Layer: Outer Core
* Distance to Travel Through Layer: 2,200 km
* Target Speed Within Layer: 50 km/hr
* Estimated Time to Travel Through Layer: 44 hours
* Temperature: 4,500-5,500°C
* Layer Type: Liquid
* Layer: Inner Core
* Distance to Travel Through Layer: 1,200 km
* Target Speed Within Layer: 30 km/hr
* Estimated Time to Travel Through Layer: 40 hours
* Temperature: 5,200-6,000°C
* Layer Type: SolidFinally, Coreseeker reached the boundary between the mantle and the core, a sea of molten metal. The temperature soared beyond imagination, threatening to melt even Coreseeker's advanced shell. But the robot, guided by its agile AI, activated its internal cooling system, a testament to human ingenuity. It then unleashed its high-powered laser, carving a path through the dense liquid metal.
As Coreseeker ventured deeper, it encountered a landscape defying human comprehension. Crystal formations, unlike anything seen on the surface, protruded from the core's walls, pulsating with an inner light unlike anything witnessed before. The robot carefully extended a manipulator arm, collecting samples for later analysis.
Days turned into weeks as Coreseeker explored this alien realm, sending back invaluable data. It discovered evidence of primordial lifeforms, their fossilized remains trapped within the metallic embrace of the Earth. These discoveries hinted at a genesis far grander and more mysterious than humanity ever imagined.
But as it went further into the core, its primary power source, the nuclear reactor, began to sputter. Realizing the inevitable, Coreseeker initiated its failsafe protocol. The robot detached its core, a sphere encasing its vital AI and the collected data, and launched it back towards the surface using the remaining power. As Coreseeker's shell succumbed to the immense pressure and heat, the core unit hurtled upwards, a beacon of human ingenuity and discovery.
Back on Earth, the news of Coreseeker's sacrifice was met with both grief and determination. Scientists, inspired by Coreseeker's success, had already begun designing a new generation of robots, even more powerful and resilient. This next iteration, designated BR-847, would continue Coreseeker's mission, venturing even deeper into the Earth's core to unlock its remaining secrets.
Weeks later, a faint signal pierced through the Earth's crust. The Coreseeker core unit had breached the surface, landing safely in the ocean. Recovered by a waiting retrieval team, the data within was a testament to Coreseeker's valiant sacrifice. The robot may not have survived, but its legacy lived on. The collected data ignited a new era of scientific exploration, forever changing humanity's understanding of our planet. Coreseeker, a symbol of courage and perseverance, became an inspiration for generations to come.