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SCRIPTURAL Ai Counselor
Duration: 0:49
Views: 1
Submitted: 3 hours ago
Submitted by:
Description:
Yes, there is such a thing, BUT ONLY on “XaETHOS.com” and upcoming iOS and Android apps… will finish site b4 app rollout. Ask in ANY HUMAN LANGUAGE ONNEarth, and reply is in same. You do NOT need to select it, my algorhitm detects your linguistic preferences right off your machine/ device!
Ask anything and it will reply with Biblical answers from the “Four Gospels” and the PROVERBS cause what Jesus said is pretty much Universally accepted at “FACE VALUE” and not subject to either PASSAGE OF TIME as measured by Humans (erroneous UNIVERSALLY — by the way — mathematically but timed to seasons of planet Earth however, DUH second you leave LEO adios TIMEKEEPING of polluted Earth because Earth time is a pragmatic, historically-evolved system designed for a single, specific planet so it’s core components (day, year, time zones) are fundamentally linked to Earth's geophysical and astronomical characteristics but beyond LEO, these concepts become arbitrary and erroneous and you might want to be aware of that before you go Cellestial body hopping! Future space exploration therefore requires a new paradigm—a flexible, relativistic framework of multiple, interlinked time scales where the clock is defined not by a planet, but by the laws of physics themselves, dig? No? I’m a breakout down below I sign off on this platform update notification of mine..) to DEBATE but if you wannuh argue take it up with him and if so, BEST OF LUCK! AND PROVERBS to impart Solomon’s wisdom into idiots!
I engineered this PLATFORM from scratch so this feature is in BETA while I’perfect LLM from your interactions which I will be monitoring to perfect and train Ai, but meanwhile: Gazillions more features will be added such as instant scripture post in your timeline, share with anyone ANYWHERE, YOUTH subsection to address peer pressure and “cannabis culture,” prevention of suicide ideation for teens and adults, Gang prevention, community Resources anywhere you are in your country and region on planet Earth!
Slow but steady always fool ready just like me, lol!
~Stateless Warrior
This video has no sound…
Your limited SCOPE Earth-centric time needs an update so here is my take on why human clocks fail beyond low Earth Orbit:
I. I WILL START WITH FOUNDATIONS OF TERRESTRIAL TIMEKEEPING, A GODLY SUBJECT FOR SURE — LOL:
A. The Core Astronomical Cycles
|
+-- 1. Solar Day
| |
| +-- Definition: One complete rotation of Earth relative to the Sun.
| +-- Human Concept: "24 hours" from noon to noon.
| +-- Variant: Apparent Solar Time (sundial time) vs. Mean Solar Time (averaged).
|
+-- 2. Sidereal Day
| |
| +-- Definition: One complete rotation of Earth relative to the distant stars.
| +-- Duration: ~4 minutes shorter than a solar day.
| +-- Purpose: Crucial for astronomy and satellite tracking.
|
+-- 3. Tropical Year
|
+-- Definition: One complete cycle of seasons (Earth's orbit around the Sun).
+-- Human Concept: Basis for the Gregorian calendar (365.2425 days).
B. The Evolution of Standardized Time
|
+-- 1. Local Solar Time: Every location had its own "true" time.
|
+-- 2. Time Zones (c. 19th Century)
| |
| +-- Rationale: To coordinate railways and telegraphs.
| +-- System: 24 zones, each ~15° of longitude, approximating 1 hour.
| +-- Flaw: Political and geographical distortions exist (e.g., China uses a single zone by the way…)
|
+-- 3. Modern High-Precision Standards
|
+-- Universal Time (UT1): Direct successor to Greenwich Mean Time (GMT), based on Earth's rotation.
+-- International Atomic Time (TAI): Based on the vibration of Cesium atoms.
+-- Coordinated Universal Time (UTC): The compromise. It uses TAI seconds but adds "leap seconds" to stay within 0.9 seconds of UT1…. Dig?
II. INHERENT ERRORS & COMPLEXITIES OF EARTH TIME
A. The Problem of Earth's Inconstant Rotation
|
+-- 1. Gradual Slowing: Tidal friction from the Moon increases day length by ~1.7 ms per century.
|
+-- 2. Irregular Variations: Due to:
|
+-- [ ] Glacial Isostatic Adjustment (post-glacial rebound)
+-- [ ] Movements in the Earth's core and mantle
+-- [ ] Large-scale atmospheric and oceanic currents
+-- [ ] Major earthquakes
B. The Leap Second
|
+-- Purpose: To bridge the gap between atomic time (TAI/UTC) and astronomical time (UT1).
+-- Effect: A one-second adjustment, positive or negative, announced by the IERS.
+-- Problem: A critical, non-trivial operation for computing and navigation systems.
C. The Relativistic Scale
|
+-- 1. Special Relativity: Moving clocks run slower.
| |
| +-- Example: GPS satellites moving at ~14,000 km/hr experience time dilation.
|
+-- 2. General Relativity: Clocks in weaker gravitational fields run faster.
| |
| +-- Example: GPS satellites in a weaker gravity well than Earth's surface.
|
+-- 3. Net Effect for GPS: The GR effect dominates. Satellite clocks gain ~38 microseconds per day.
| |
| +-- [x] Correction: Clock frequencies are pre-adjusted before launch.
| +-- Consequence: Without relativistic corrections, GPS would be inaccurate by *kilometers* per day.
III. THE BREAKDOWN OF EARTH TIME BEYOND LOW EARTH ORBIT (LEO)
A. The Lunar Context
|
+-- 1. The Lunar Day (Lunar Solar Day)
| |
| +-- Duration: ~29.5 Earth days (708 hours) from sunrise to sunrise.
| +-- Challenge: An "Earth-clock" 9-to-5 workday or "Monday-Friday" week is meaningless.
| +-- Environmental: ~14 Earth days of continuous sunlight followed by 14 days of darkness.
|
+-- 2. Lack of Time Zones: No geopolitical entities to define them.
|
+-- 3. Proposed Solution: Lunar Standard Time (LST)
|
+-- Requirement: A new, agreed-upon prime meridian (e.g., facing Earth).
+-- Concept: A continuous, traceable time system for the Moon, like TAI.
+-- Key Differentiator: It must run at a different *relativistic rate* than terrestrial time.
B. The Martian Context
|
+-- 1. The Martian Day (Sol)
| |
| +-- Duration: 24 hours, 39 minutes, 35.244 seconds.
| +-- Consequence: All Martian lander missions operate on "Sol" time, which drifts relative to UTC.
|
+-- 2. Martian Year: ~687 Earth days.
|
+-- 3. Proposed Solution: Mars Coordinated Time (MTC)
|
+-- Concept: A time zone system for Mars, with a prime meridian (e.g., Airy-0 crater).
+-- Challenge: Clocks on Mars run at a different relativistic rate than on Earth/Moon due to Mars's different orbital speed and gravity.
C. Deep Space and Interplanetary Spacecraft
|
+-- 1. No Shared Solar Reference: The concept of "noon" is spacecraft-local.
|
+-- 2. Operational Timekeeping: Use of onboard, uncorrected atomic clocks running on "Mission Elapsed Time" (MET).
|
+-- 3. Ephemeris Time: Time is defined by the precise mathematical solution to the spacecraft's orbit (its ephemeris) around the Sun or a planet.
|
+-- 4. Relativity Dominates: For navigation, time must be calculated relative to the Solar System Barycenter (the center of mass of the Solar System), accounting for the gravity wells of the Sun and planets.
IV. TOWARDS A CELESTIAL TIME STANDARD
A. Core Principles for a New System
|
+-- 1. Decoupling from a Single Body: Time must not be tied to Earth's rotation or orbit.
|
+-- 2. Relativity as a First-Order Design Parameter: Not an afterthought.
|
+-- 3. Hierarchy of Time Scales:
|
+-- Barycentric Coordinate Time (TCB): For the solar system as a whole.
+-- Geocentric Coordinate Time (TCG): For Earth and its vicinity.
+-- Martian Coordinate Time (TCM): For Mars and its vicinity.
+-- Selenocentric Coordinate Time (TCL): For the Moon.
B. The Role of Atomic Clocks
|
+-- Foundation: A network of ultra-precise clocks in different locations (Earth, Moon, orbit) to define and compare these coordinate times.
|
+-- Pulsars as a Potential Backup: The regular pulses from millisecond pulsars could serve as a natural, galaxy-wide clock for future navigation and now you are no longer a dumbass homey!
Ask anything and it will reply with Biblical answers from the “Four Gospels” and the PROVERBS cause what Jesus said is pretty much Universally accepted at “FACE VALUE” and not subject to either PASSAGE OF TIME as measured by Humans (erroneous UNIVERSALLY — by the way — mathematically but timed to seasons of planet Earth however, DUH second you leave LEO adios TIMEKEEPING of polluted Earth because Earth time is a pragmatic, historically-evolved system designed for a single, specific planet so it’s core components (day, year, time zones) are fundamentally linked to Earth's geophysical and astronomical characteristics but beyond LEO, these concepts become arbitrary and erroneous and you might want to be aware of that before you go Cellestial body hopping! Future space exploration therefore requires a new paradigm—a flexible, relativistic framework of multiple, interlinked time scales where the clock is defined not by a planet, but by the laws of physics themselves, dig? No? I’m a breakout down below I sign off on this platform update notification of mine..) to DEBATE but if you wannuh argue take it up with him and if so, BEST OF LUCK! AND PROVERBS to impart Solomon’s wisdom into idiots!
I engineered this PLATFORM from scratch so this feature is in BETA while I’perfect LLM from your interactions which I will be monitoring to perfect and train Ai, but meanwhile: Gazillions more features will be added such as instant scripture post in your timeline, share with anyone ANYWHERE, YOUTH subsection to address peer pressure and “cannabis culture,” prevention of suicide ideation for teens and adults, Gang prevention, community Resources anywhere you are in your country and region on planet Earth!
Slow but steady always fool ready just like me, lol!
~Stateless Warrior
This video has no sound…
Your limited SCOPE Earth-centric time needs an update so here is my take on why human clocks fail beyond low Earth Orbit:
I. I WILL START WITH FOUNDATIONS OF TERRESTRIAL TIMEKEEPING, A GODLY SUBJECT FOR SURE — LOL:
A. The Core Astronomical Cycles
|
+-- 1. Solar Day
| |
| +-- Definition: One complete rotation of Earth relative to the Sun.
| +-- Human Concept: "24 hours" from noon to noon.
| +-- Variant: Apparent Solar Time (sundial time) vs. Mean Solar Time (averaged).
|
+-- 2. Sidereal Day
| |
| +-- Definition: One complete rotation of Earth relative to the distant stars.
| +-- Duration: ~4 minutes shorter than a solar day.
| +-- Purpose: Crucial for astronomy and satellite tracking.
|
+-- 3. Tropical Year
|
+-- Definition: One complete cycle of seasons (Earth's orbit around the Sun).
+-- Human Concept: Basis for the Gregorian calendar (365.2425 days).
B. The Evolution of Standardized Time
|
+-- 1. Local Solar Time: Every location had its own "true" time.
|
+-- 2. Time Zones (c. 19th Century)
| |
| +-- Rationale: To coordinate railways and telegraphs.
| +-- System: 24 zones, each ~15° of longitude, approximating 1 hour.
| +-- Flaw: Political and geographical distortions exist (e.g., China uses a single zone by the way…)
|
+-- 3. Modern High-Precision Standards
|
+-- Universal Time (UT1): Direct successor to Greenwich Mean Time (GMT), based on Earth's rotation.
+-- International Atomic Time (TAI): Based on the vibration of Cesium atoms.
+-- Coordinated Universal Time (UTC): The compromise. It uses TAI seconds but adds "leap seconds" to stay within 0.9 seconds of UT1…. Dig?
II. INHERENT ERRORS & COMPLEXITIES OF EARTH TIME
A. The Problem of Earth's Inconstant Rotation
|
+-- 1. Gradual Slowing: Tidal friction from the Moon increases day length by ~1.7 ms per century.
|
+-- 2. Irregular Variations: Due to:
|
+-- [ ] Glacial Isostatic Adjustment (post-glacial rebound)
+-- [ ] Movements in the Earth's core and mantle
+-- [ ] Large-scale atmospheric and oceanic currents
+-- [ ] Major earthquakes
B. The Leap Second
|
+-- Purpose: To bridge the gap between atomic time (TAI/UTC) and astronomical time (UT1).
+-- Effect: A one-second adjustment, positive or negative, announced by the IERS.
+-- Problem: A critical, non-trivial operation for computing and navigation systems.
C. The Relativistic Scale
|
+-- 1. Special Relativity: Moving clocks run slower.
| |
| +-- Example: GPS satellites moving at ~14,000 km/hr experience time dilation.
|
+-- 2. General Relativity: Clocks in weaker gravitational fields run faster.
| |
| +-- Example: GPS satellites in a weaker gravity well than Earth's surface.
|
+-- 3. Net Effect for GPS: The GR effect dominates. Satellite clocks gain ~38 microseconds per day.
| |
| +-- [x] Correction: Clock frequencies are pre-adjusted before launch.
| +-- Consequence: Without relativistic corrections, GPS would be inaccurate by *kilometers* per day.
III. THE BREAKDOWN OF EARTH TIME BEYOND LOW EARTH ORBIT (LEO)
A. The Lunar Context
|
+-- 1. The Lunar Day (Lunar Solar Day)
| |
| +-- Duration: ~29.5 Earth days (708 hours) from sunrise to sunrise.
| +-- Challenge: An "Earth-clock" 9-to-5 workday or "Monday-Friday" week is meaningless.
| +-- Environmental: ~14 Earth days of continuous sunlight followed by 14 days of darkness.
|
+-- 2. Lack of Time Zones: No geopolitical entities to define them.
|
+-- 3. Proposed Solution: Lunar Standard Time (LST)
|
+-- Requirement: A new, agreed-upon prime meridian (e.g., facing Earth).
+-- Concept: A continuous, traceable time system for the Moon, like TAI.
+-- Key Differentiator: It must run at a different *relativistic rate* than terrestrial time.
B. The Martian Context
|
+-- 1. The Martian Day (Sol)
| |
| +-- Duration: 24 hours, 39 minutes, 35.244 seconds.
| +-- Consequence: All Martian lander missions operate on "Sol" time, which drifts relative to UTC.
|
+-- 2. Martian Year: ~687 Earth days.
|
+-- 3. Proposed Solution: Mars Coordinated Time (MTC)
|
+-- Concept: A time zone system for Mars, with a prime meridian (e.g., Airy-0 crater).
+-- Challenge: Clocks on Mars run at a different relativistic rate than on Earth/Moon due to Mars's different orbital speed and gravity.
C. Deep Space and Interplanetary Spacecraft
|
+-- 1. No Shared Solar Reference: The concept of "noon" is spacecraft-local.
|
+-- 2. Operational Timekeeping: Use of onboard, uncorrected atomic clocks running on "Mission Elapsed Time" (MET).
|
+-- 3. Ephemeris Time: Time is defined by the precise mathematical solution to the spacecraft's orbit (its ephemeris) around the Sun or a planet.
|
+-- 4. Relativity Dominates: For navigation, time must be calculated relative to the Solar System Barycenter (the center of mass of the Solar System), accounting for the gravity wells of the Sun and planets.
IV. TOWARDS A CELESTIAL TIME STANDARD
A. Core Principles for a New System
|
+-- 1. Decoupling from a Single Body: Time must not be tied to Earth's rotation or orbit.
|
+-- 2. Relativity as a First-Order Design Parameter: Not an afterthought.
|
+-- 3. Hierarchy of Time Scales:
|
+-- Barycentric Coordinate Time (TCB): For the solar system as a whole.
+-- Geocentric Coordinate Time (TCG): For Earth and its vicinity.
+-- Martian Coordinate Time (TCM): For Mars and its vicinity.
+-- Selenocentric Coordinate Time (TCL): For the Moon.
B. The Role of Atomic Clocks
|
+-- Foundation: A network of ultra-precise clocks in different locations (Earth, Moon, orbit) to define and compare these coordinate times.
|
+-- Pulsars as a Potential Backup: The regular pulses from millisecond pulsars could serve as a natural, galaxy-wide clock for future navigation and now you are no longer a dumbass homey!
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