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The STAR WARS EXPANDED UNIVERSE TIMELINE by Joe Bongiorno This chronology follows the original canon of the Star Wars saga. EU-Compatible stories are included in the Complete Saga chronology, which takes a modified One Canon, Three Universes approach (the third one being Infinities). For timelines with strictly pre-2014 EU stories, go to the individual eras. |
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“After Star Wars was released, it became apparent that my story—however many films it took to tell—was only one of thousands that could be told about the characters who inhabit its galaxy. But these were not stories I was destined to tell. Instead they would spring from the imagination of other writers, inspired by the glimpse of a galaxy that Star Wars provided. Today it is an amazing, if unexpected, legacy of Star Wars that so many gifted writers are contributing new stories to the Saga.” ~George Lucas, foreword to the 1994 reprint of Splinter of the Mind's Eye |
Hyperdeep [best] - Crack
Geological hyperdeep cracks occur along fault lines. Earthquakes and tectonic shifts rip the crust apart, creating massive fissures that can extend kilometers into the bedrock, permanently altering local topography and hydrology. 3. Thermal Shock and Volumetric Changes
that are difficult to detect but pose catastrophic risks to infrastructure. Fatigue Cracking hyperdeep crack
to process data locally on IoT devices, ensuring rapid response times for critical infrastructure monitoring. Reduced Data Training Geological hyperdeep cracks occur along fault lines
Hyperdeep cracks, also known as ultra-deep or mega-deep cracks, are exceptionally large and deep fractures that extend far into the Earth's crust, sometimes reaching depths of over 10 kilometers (6.2 miles). These cracks are not just ordinary faults or fractures, but rather extraordinary features that seem to defy the conventional understanding of rock mechanics and geological processes. Thermal Shock and Volumetric Changes that are difficult
Deep corrosion or chemical reactions within concrete can lead to severe cracking at the foundational level, far below the surface [6]. 4. Detection and Monitoring of Hidden Fractures
To identify cracks in the earth's crust, 3D seismic reflection mapping is utilized to interpret subsurface geological fissures [9]. 5. Mitigation and Remediation
Because these cracks extend far below the visible surface, engineers and geologists rely on specialized Non-Destructive Testing (NDT) technologies to map their depth and trajectory.