A highly detailed engineering schematic drawing of Mass-Based Gravitational Fiel

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A highly detailed engineering schematic drawing of Mass-Based Gravitational Field Generator Description Superconducting Magnets: Purpose: Generate intense magnetic fields. Configuration: Array of superconducting coils surrounding the central core. Function: Manipulate space-time fabric to simulate gravitational effects. Dense Core: Material: High-density alloy or composite. Location: Central to the generator. Role: Utilizes its mass to create a gravitational field. Power Supply: Source: Fusion reactor or advanced energy source. Distribution: Provides power to the superconducting magnets and core systems. Control System: Interfaces: Control panels for operators. Feedback Mechanisms: Monitor and adjust magnetic field strength and core parameters. Cooling System: Coolant: Circulates through superconducting magnets. Heat Dissipation: Radiators for thermal management in space conditions. Support Structure: Frame: Reinforced framework to support the dense core and magnet arrays. Materials: Lightweight yet robust alloys suitable for space applications. Visualization Details: Annotations: Clearly labeled components with detailed descriptions. Scale: Proportional dimensions to illustrate relative sizes and configurations. Integration: Clearly show connections and interactions between components and subsystems.

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A highly detailed engineering schematic drawing of Mass-Based Gravitational Field Generator Description Superconducting Magnets: Purpose: Generate intense magnetic fields . Configuration: Array of superconducting coils surrounding the central core . Function: Manipulate space-time fabric to simulate gravitational effects . Dense Core: Material: High-density alloy or composite . Location: Central to the generator . Role: Utilizes its mass to create a gravitational field . Power Supply: Source: Fusion reactor or advanced energy source . Distribution: Provides power to the superconducting magnets and core systems . Control System: Interfaces: Control panels for operators . Feedback Mechanisms: Monitor and adjust magnetic field strength and core parameters . Cooling System: Coolant: Circulates through superconducting magnets . Heat Dissipation: Radiators for thermal management in space conditions . Support Structure: Frame: Reinforced framework to support the dense core and magnet arrays . Materials: Lightweight yet robust alloys suitable for space applications . Visualization Details: Annotations: Clearly labeled components with detailed descriptions . Scale: Proportional dimensions to illustrate relative sizes and configurations . Integration: Clearly show connections and interactions between components and subsystems .

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A highly detailed engineering schematic drawing of Mass-Based Gravitational Field Generator Description Superconducting Magnets: Purpose: Generate intense magnetic fields. Configuration: Array of superconducting coils surrounding the central core. Function: Manipulate space-time fabric to simulate gravitational effects. Dense Core: Material: High-density alloy or composite. Location: Central to the generator. Role: Utilizes its mass to create a gravitational field. Power Supply: Source: Fusion reactor or advanced energy source. Distribution: Provides power to the superconducting magnets and core systems. Control System: Interfaces: Control panels for operators. Feedback Mechanisms: Monitor and adjust magnetic field strength and core parameters. Cooling System: Coolant: Circulates through superconducting magnets. Heat Dissipation: Radiators for thermal management in space conditions. Support Structure: Frame: Reinforced framework to support the dense core and magnet arrays. Materials: Lightweight yet robust alloys suitable for space applications. Visualization Details: Annotations: Clearly labeled components with detailed descriptions. Scale: Proportional dimensions to illustrate relative sizes and configurations. Integration: Clearly show connections and interactions between components and subsystems.

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CFG Scale

7

단계

20

수집기

Euler a

랜덤 시드

1700775031

Clip Skip

1

이미지 사이즈

1024 X 1024

모델

CyberRealistic

생성

사이즈

1024X1024

날짜

Jul 15, 2024

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기본

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upscale

Checkpoint & LoRA

Checkpoint

CyberRealistic

LORA

RealDownblouse - Downblouse & Nipslip LoRA

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