Can We Solve Relativity? | Lanar Hassano

Lanar Hassano
29 Jan 202406:36
EducationalLearning
32 Likes 10 Comments

TLDRThe science fiction world of Lanar Hanano, created by Blake DSE since 2016, explores how advanced civilizations across the cosmos synchronize time despite relativity. When the Anar and Eelherk formed the Syndicate 1500 years ago, they standardized time using the quantum chronometric network tied to a moon with a stable orbit. Faster-than-light travel via spacetime manipulation mitigates time dilation. An entire government branch oversees timekeeping, enabling a galactic civilization. Philosophies worship transcending time itself. Understanding time aided quantum technology developments vital for space internet.

Takeaways
  • πŸ˜€ The video discusses how time is standardized across an interstellar civilization.
  • ⏱️ A base time system was established using a stable moon orbit as the reference.
  • ⏱️ Time is measured precisely using quantum phenomena like atomic transitions.
  • πŸš€ To avoid time dilation, FTL travel manipulates spacetime rather than moving through it.
  • 😡 Paradoxes and complexities arise when considering time across cosmic scales.
  • πŸ“… A government branch oversees proper timekeeping across the civilization.
  • βŒ› Some philosophies center around transcending or mastering time itself.
  • πŸ”¬ Advances in quantum tech improved understanding of physics and enabled an interstellar internet.
  • 😨 Potential catastrophes can occur if synchronization of time breaks down.
  • πŸ”œ The next video will cover what happens when things go wrong with time.
Q & A

  • What was one of the first problems the Anar and Eelherk faced when forming the Syndicate space civilization?

    -Reconciling their different calendar and time systems into a standardized format.

  • Why was olara chosen as the seat of government for the Syndicate space civilization?

    -Olara has a very stable orbit that could be used as the standard time measure for all of Syndicate space.

  • How is time measured on an interstellar level in Syndicate space?

    -Time is measured on the quantum level by observing quantum phenomena like atomic transitions and electromagnetic waves.

  • What technology helps synchronize time across planets in Syndicate space?

    -The quantum chronometric network, which functions like a system of highly precise clocks.

  • How does faster than light travel work in Syndicate space?

    -FTL travel manipulates spacetime so that space moves around the ship while the ship itself remains stationary, minimizing time dilation effects.

  • Why do many people opt to stay within their solar system in Syndicate space?

    -Because of the cumbersome experience of interstellar travel, which is not instantaneous due to safety limits on FTL travel speeds.

  • What branch of the Syndicate space government is dedicated to proper timekeeping?

    -The Timekeeping Authority oversees the quantum chronometric network and time synchronization.

  • How did the quantum chronometric network provide a deeper understanding of quantum phenomena?

    -The technology developed for the network enabled new insights into quantum effects that were useful for other innovations like the synx.

  • What paradoxes arise from faster than light travel?

    -Effects like time dilation can lead to paradoxes where the traveler experiences less time passage than external observers.

  • How does Syndicate space deal with time dilation paradoxes from FTL travel?

    -By limiting FTL speeds near populated systems and accounting for time dilation effects through the quantum chronometric network.

Outlines
00:00
πŸ•°οΈ Establishing Standardized Timekeeping

The first paragraph explains how the founding members of Syndicate space established a new calendar system to standardize timekeeping, using the moon Olara as the base reference. One Olara day is 36 Earth hours. The date notation consists of the day number, decimal point, and year number. Time is measured quantumly for consistency across the universe using the Quantum Chronometric Network.

05:01
😎 Accounting for Faster Than Light Travel

The second paragraph discusses the complexities of accounting for time dilation from faster than light travel. Ships use Garrett cores to manipulate spacetime so they technically aren't moving, mitigating relativistic effects. But travel still takes time so densely populated systems exist. The Quantum Chronometric Network accounts for dilation, allowing consistent timekeeping.

Mindmap
Keywords
πŸ’‘time
Time is a core theme of the video. It is described as the most precious resource in the universe that can't be created, only kept. Standardizing time measurement across an interstellar civilization is a major challenge the video explores. Examples from the script show time being measured at the quantum level and synchronized across planets.
πŸ’‘relativity
Einstein's theory of relativity describes the interwoven nature of space and time. It leads to consequences like time dilation, where time is experienced differently for observers moving at different speeds. This effect poses problems for standardizing time across a spacefaring civilization.
πŸ’‘FTL travel
Faster-than-light travel allows traversing vast cosmic distances. In the video, it's accomplished not by moving objects faster than light speed but by warping spacetime around them. This mitigates issues like time dilation.
πŸ’‘Garrick core
The Garrick core is the technology that enables FTL travel in the video's fictional universe. It works by manipulating spacetime instead of accelerating objects past light speed, avoiding extreme time dilation effects.
πŸ’‘quantum chronometric network
The quantum chronometric network (QCN) is used to standardize and synchronize time measurement across the civilization based on quantum phenomena like atomic transitions. It provides a consistent timekeeping system.
πŸ’‘space-time
Space and time are interwoven into a single continuum that can be warped by gravity, according to relativity theory. The curvature of space-time affects how objects move through space and time.
πŸ’‘cosmos
On a cosmic scale across interstellar distances, standardizing time measurement is extremely complex. The video explores solutions to this problem for a fictional civilization spanning the cosmos.
πŸ’‘paradoxes
Referenced at the end of the video, paradoxes can emerge when dealing with relativistic effects across vast cosmic scales. They pose conceptual problems for universal timekeeping.
πŸ’‘philosophy
The video notes entire philosophical institutions devoted to transcending or mastering the concept of time in this fictional setting, showing its conceptual depth.
πŸ’‘quantum phenomena
Observing quantum phenomena like atomic transitions provides a precise, consistent way to measure time used by the quantum chronometric network to synchronize clocks.
Highlights

First significant research finding

Introduction of new theoretical model

Notable contribution to field

Key conclusion and practical applications

Transcripts

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