Forwarded from Fireworks Daily Team (Mezlim)
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Meanwhile in NYC
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Forwarded from Fireworks Daily Team (Mezlim)
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Sleepy Taxes
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This has been #UndergroundWarReport for 01/24-25/2026
GODSPEED subterranean troops 🟩 ⚔️ 🟦
Keep Preparing For You Are Dealing With Unfathomable EVIL!!!!!!
Godspeed Subterranean Troops
And to All The Wizards in the field + Support Roles.
Godspeed To Legacy Space Force Guardians.
#GWOHT
#UndergroundWarReport
#BeerandDoughnuts101
#SubterraneanWarfare101
#SubmarineTunnels101
#GREENWIZARDOFTHEDAY
#GlobalWarOnHumanTraffickers
GODSPEED subterranean troops 🟩 ⚔️ 🟦
Keep Preparing For You Are Dealing With Unfathomable EVIL!!!!!!
Godspeed Subterranean Troops
And to All The Wizards in the field + Support Roles.
Godspeed To Legacy Space Force Guardians.
#GWOHT
#UndergroundWarReport
#BeerandDoughnuts101
#SubterraneanWarfare101
#SubmarineTunnels101
#GREENWIZARDOFTHEDAY
#GlobalWarOnHumanTraffickers
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Good Night ✨
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Forwarded from Azazel News (Aries)
YouTube
Space Revolution Ep. 2: Energy is Life
In Episode 2 of Space Revolution, host Steve Kwast is joined by guest Jon Herold for a wide-ranging discussion on why energy is the foundational driver of human progress. The conversation explores how modern energy systems are inefficient, expensive, and…
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Forwarded from Azazel News (Aries)
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#HOMEWORK ASSIGNMENT from JPL 🟦🧙🏻♂️🚀
https://www.youtube.com/watch?v=BdWe2rs2B5k
Quiz Questions tomorrow
https://www.youtube.com/watch?v=BdWe2rs2B5k
Quiz Questions tomorrow
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Forwarded from Azazel News (Aries)
MODULE 4
Command, Control, and Autonomy
Modern lunar planning (including Artemis**) prioritizes south-polar rim sites with ~70–90% solar illumination due to grazing Sun angles and terrain.
This changes:
- average power availability
- reliance on solar during nominal operations
It does *not* change:
- Earth–Moon light-time delay
- comm outages and antenna masking
- the requirement for autonomous safety
https://t.me/AzazelNews/954468
Command, Control, and Autonomy
Modern lunar planning (including Artemis**) prioritizes south-polar rim sites with ~70–90% solar illumination due to grazing Sun angles and terrain.
This changes:
- average power availability
- reliance on solar during nominal operations
It does *not* change:
- Earth–Moon light-time delay
- comm outages and antenna masking
- the requirement for autonomous safety
https://t.me/AzazelNews/954468
Forwarded from Azazel News (Aries)
Question 1
In the 1963–1965 lunar nuclear power studies (WANL, CNLM, LESA, Westinghouse), which observation most strongly supports the claim that reactor physics was not the primary development risk?
A. The reactors were designed at relatively low thermal power compared to terrestrial plants.
B. The studies assumed fast-spectrum cores, which reduce moderator mass.
C. Shielding mass estimates were smaller than expected for lunar applications.
D. The presence of RTGs in parallel architectures reduced dependence on the reactor.
E. Criticality control and reactivity behavior were treated as baseline assumptions, while critiques focused on startup, corrosion, and heat rejection.
In the 1963–1965 lunar nuclear power studies (WANL, CNLM, LESA, Westinghouse), which observation most strongly supports the claim that reactor physics was not the primary development risk?
A. The reactors were designed at relatively low thermal power compared to terrestrial plants.
B. The studies assumed fast-spectrum cores, which reduce moderator mass.
C. Shielding mass estimates were smaller than expected for lunar applications.
D. The presence of RTGs in parallel architectures reduced dependence on the reactor.
E. Criticality control and reactivity behavior were treated as baseline assumptions, while critiques focused on startup, corrosion, and heat rejection.
Question 1
✅ Correct answer: E
Explanation:
Mature engineering programs stop debating feasibility and start debating operations. The papers assume controllable criticality and instead argue over startup from frozen states, liquid-metal corrosion, radiator survivability, and maintenance realism — all system-level concerns.
✅ Correct answer: E
Explanation:
Mature engineering programs stop debating feasibility and start debating operations. The papers assume controllable criticality and instead argue over startup from frozen states, liquid-metal corrosion, radiator survivability, and maintenance realism — all system-level concerns.
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Forwarded from Azazel News (Aries)
Question 2
Why does the lunar power plant design rely on stored command sequences executed locally instead of allowing Earth to directly control individual actuators?
A. Because direct actuator commands would require too much communication bandwidth.
B. Because Earth-based operators cannot see the plant’s real-time status clearly enough.
C. Because the plant must remain safe even if communications are delayed, interrupted, or unavailable.
D. Because onboard computers cannot accept direct commands.
E. Because the reactor must operate continuously without shutdown.
Why does the lunar power plant design rely on stored command sequences executed locally instead of allowing Earth to directly control individual actuators?
A. Because direct actuator commands would require too much communication bandwidth.
B. Because Earth-based operators cannot see the plant’s real-time status clearly enough.
C. Because the plant must remain safe even if communications are delayed, interrupted, or unavailable.
D. Because onboard computers cannot accept direct commands.
E. Because the reactor must operate continuously without shutdown.
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Question 2
✅ Correct answer: C
Explanation:
The plant’s safety cannot depend on perfect communications. Stored sequences enforce correct ordering and interlocks locally, ensuring safe behavior even when Earth is delayed or unreachable.
✅ Correct answer: C
Explanation:
The plant’s safety cannot depend on perfect communications. Stored sequences enforce correct ordering and interlocks locally, ensuring safe behavior even when Earth is delayed or unreachable.
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Forwarded from Azazel News (Aries)
Question 3
At a south-polar rim site with ~70–90% solar illumination, which change most increases the importance of Module 4 autonomy features rather than reducing them?
A. The likelihood that the reactor will be cycled on and off, making reliable autonomous startup and restart logic critical.
B. Increased opportunity to run Earth-in-the-loop control.
C. Reduced need for radiators due to lower average reactor output.
D. The availability of solar power for telemetry transmission.
E. The use of RTGs as backup heat sources.
At a south-polar rim site with ~70–90% solar illumination, which change most increases the importance of Module 4 autonomy features rather than reducing them?
A. The likelihood that the reactor will be cycled on and off, making reliable autonomous startup and restart logic critical.
B. Increased opportunity to run Earth-in-the-loop control.
C. Reduced need for radiators due to lower average reactor output.
D. The availability of solar power for telemetry transmission.
E. The use of RTGs as backup heat sources.
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Question 3
✅ Correct answer: A
Explanation:
High illumination encourages reactor cycling instead of continuous operation. This increases, not decreases, reliance on autonomous startup/shutdown sequencing, decay-heat management, and restart readiness .
✅ Correct answer: A
Explanation:
High illumination encourages reactor cycling instead of continuous operation. This increases, not decreases, reliance on autonomous startup/shutdown sequencing, decay-heat management, and restart readiness .
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Forwarded from Azazel News (Aries)
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#HOMEWORK ASSIGNMENT from JPL 🟦🧙🏻♂️🚀
https://www.youtube.com/watch?v=BdWe2rs2B5k
Quiz Questions tomorrow
https://www.youtube.com/watch?v=BdWe2rs2B5k
Quiz Questions tomorrow
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Q1.
Which capability makes space-based solar power fundamentally different from all prior energy systems discussed in the video?
A. It relies on nuclear reactions rather than chemical or photovoltaic processes
B. It enables wireless, packetized, location-independent energy delivery
C. It eliminates the need for energy storage entirely
D. It requires no regulatory oversight due to inherent safety
Which capability makes space-based solar power fundamentally different from all prior energy systems discussed in the video?
A. It relies on nuclear reactions rather than chemical or photovoltaic processes
B. It enables wireless, packetized, location-independent energy delivery
C. It eliminates the need for energy storage entirely
D. It requires no regulatory oversight due to inherent safety
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Q2.
Why does collecting solar energy in space dramatically increase overall system efficiency compared to Earth-based solar?
A. Space solar panels use fundamentally different materials than Earth panels
B. The absence of gravity allows electrons to move more freely
C. Energy collection is continuous and avoids atmospheric and weather losses
D. Space solar panels generate more energy because the Sun is hotter in orbit
Why does collecting solar energy in space dramatically increase overall system efficiency compared to Earth-based solar?
A. Space solar panels use fundamentally different materials than Earth panels
B. The absence of gravity allows electrons to move more freely
C. Energy collection is continuous and avoids atmospheric and weather losses
D. Space solar panels generate more energy because the Sun is hotter in orbit
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