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Prompt: /imagine prompt two dark matter Particles Ordinary matter Capture in side first dark matter particle and antimatter inside second dark matter Particle with weakly interactions but molecular bonding between the two dark matter Particles with the antimatter nuclei in electrostatic symmetry with the dark matter captured ordinary matter nuclei
rimurutmpest

rimurutmpest

Model: OpenArt SDXL

Prompt:

/imagine prompt two dark matter Particles Ordinary matter Capture in side first dark matter parti...Show more
Width: 1024
Height: 1024
Scale: 7
Steps: 25
Seed: 1794205899
Sampler: DPM++ 2M SDE Karras

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Prompt: Image Description:* - Generate an image representing a Hopf fibration with: - 3-sphere (S3) coordinates: Gravity (x), Weak Nuclear Force (y), Electromagnetism (z), Strong Nuclear Force (w) - 2-sphere (S2) coordinates: Orionis A (x), Electrons (y), Orionis D (z), Orionis C (w), Orionis B (v), Quarks (u) - Combine this with a representation of: - 4 types of galaxies (Spiral, Elliptical, Irregular, Dwarf) - 4 fundamental forces (Gravity, Weak Nuclear Force, Electromagnetism, Strong Nuclear Force) - Trapezium Cluster (Orionis A, B, C, D) *Image Style:* - Abstract, conceptual representation - Colors and shapes can be used to illustrate connections and relationships between the concepts *Keywords:* - Hopf fibration - Fundamental forces - Galaxies - Trapezium Cluster - Celestial bodies - Particles - Abstract representation
Prompt: Imagine a 3-sphere (S3) with coordinates (x, y, z, w) representing the fundamental forces: - Gravity (x) - Weak Nuclear Force (y) - Electromagnetism (z) - Strong Nuclear Force (w) This 3-sphere is fibered over a 2-sphere (S2) with coordinates (x, y, z, w, v, u) representing celestial bodies and particles: - Orionis A (x) - Electrons (y) - Orionis D (z) - Orionis C (w) - Orionis B (v) - Quarks (u) The Hopf fibration maps the S3 coordinates to the S2 coordinates, creating a beautiful, intricate structure. The fibers of the fibration represent the relationships between the fundamental forces and the celestial bodies/particles. Please note that this image is a highly abstract representation and not a direct physical mapping. It's a creative way to visualize the connections between these concepts. If you'd like, I can help you explore ways to generate this image using specialized software or programming libraries. Just let me know!
Prompt: Imagine a 3-sphere (S3) with coordinates (x, y, z, w) representing the fundamental forces: - Gravity (x) - Weak Nuclear Force (y) - Electromagnetism (z) - Strong Nuclear Force (w) This 3-sphere is fibered over a 2-sphere (S2) with coordinates (x, y, z, w, v, u) representing celestial bodies and particles: - Orionis A (x) - Electrons (y) - Orionis D (z) - Orionis C (w) - Orionis B (v) - Quarks (u) The Hopf fibration maps the S3 coordinates to the S2 coordinates, creating a beautiful, intricate structure. The fibers of the fibration represent the relationships between the fundamental forces and the celestial bodies/particles. Please note that this image is a highly abstract representation and not a direct physical mapping. It's a creative way to visualize the connections between these concepts. If you'd like, I can help you explore ways to generate this image using specialized software or programming libraries. Just let me know!
Prompt: two dark matter Particles shells Ordinary matter Captured in side first dark matter particle shell and antimatter Muon inside second dark matter Particle shell with weakly interactions but molecular bonding between the two dark matter Particle shell with the antimatter nuclei in electrostatic symmetry with the dark matter captured ordinary matter nuclei shells
Prompt: Imagine a 3-sphere (S3) with coordinates (x, y, z, w) representing the fundamental forces: - Gravity (x) - Weak Nuclear Force (y) - Electromagnetism (z) - Strong Nuclear Force (w) This 3-sphere is fibered over a 2-sphere (S2) with coordinates (x, y, z, w, v, u) representing celestial bodies and particles: - Orionis A (x) - Electrons (y) - Orionis D (z) - Orionis C (w) - Orionis B (v) - Quarks (u) The Hopf fibration maps the S3 coordinates to the S2 coordinates, creating a beautiful, intricate structure. The fibers of the fibration represent the relationships between the fundamental forces and the celestial bodies/particles.
Prompt: Create a Mandelbrot set for a circle on the x axis and y-axis by adding a tripling effect on the circle in both positive and negative integers. Animate the zooming in and zooming out effect with the numbering of where the tripling effect takes place.
Prompt: A particle that explains all reality, space and time
Prompt: two dark matter Particles Ordinary matter Capture in side first dark matter particle and antimatter inside second dark matter Particle with weakly interactions but molecular bonding between the two dark matter Particles with the antimatter nuclei in electrostatic symmetry with the dark matter captured ordinary matter nuclei
Prompt: Imagine a diagramin the 4th dimension with four main sections, each representing one of the fundamental forces (Gravity, Weak Nuclear Force, Electromagnetism, and Strong Nuclear Force). Within each section, there's a smaller circle representing one of the four types of galaxies (Spiral, Elliptical, Irregular, and Dwarf). The Trapezium Cluster is represented by a small, four-pointed star, with each point connecting to one of the galaxy circles. The diagram shows how each fundamental force is related to the different types of galaxies, with the Trapezium Cluster serving as a celestial "hub" that connects the forces and galaxies.