#darkmatter

Fun fact: Gooey has exactly 1 piece of official art work where he has a forked tongue and I love it.

Warp Darkmatter still remain my second most favorite character in the whole series (guess who my fav)

The universe is vast and full of mysteries. Two important scientific fields that help us understand it are astrophysics and cosmology. Although these fields are closely related, they focus on different aspects of the universe and work together to explain how it works. 🌠

Astrophysics studies the physical nature of objects in space. Scientists in this field study stars, planets, galaxies, nebulae, and black holes. They use the laws of physics, such as gravity, motion, energy, and nuclear processes, to understand how these objects form, evolve, and interact with each other. For example, astrophysicists study how stars generate energy through nuclear fusion and how gravitational forces shape galaxies. ⭐🪐

Cosmology, on the other hand, looks at the universe on the largest possible scale. Rather than focusing on individual objects, cosmologists study the origin, structure, and evolution of the entire universe. A key concept in cosmology is the Big Bang theory, which states that the universe began in an extremely hot and dense state about 13.8 billion years ago and has been expanding ever since. 🌌💥

Scientists in both fields rely on powerful telescopes, satellites, and advanced computer simulations to observe distant celestial objects and analyze vast amounts of data. By studying light, radiation, and celestial structures, they can learn about the temperature, composition, and motion of objects billions of light-years away. 🔭🛰️

December 27, 2025, Reginald Brooks -->brush & ink, and, --> digital color/acrylic painting

Assumption 27:

The Small LIGO In Your Head (part 7 of a 10-part closing)

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SIDE NOTE: the ST wave is a pulse-propagated virtual wave-particle that emanates from any and all ST energy. It is a virtual photon, where c = wavelength x frequency = λ​(v) = spatial extension x frequency = space/time. That's right, as we know from relativity, space and time are never alone, but exist as space per time, or ST. Every extension of the wavelength occurs over time and if the velocity of light (c) is a constant, then shorter wavelengths must occur (pulse) with greater frequency (v), and that must be over shorter stretches of time. In our focus on the spatial component of gravitation, one must not lose track of the temporal component. Time, as an intimate part of any and all spatial contraction or expansion, plays the critical role of being the other half of the equation that must be of such value that it ultimately satisfies the CoST. Of all the spatial displacement possibilities present at any interference of two or more ST waves, only those -- or that -- that satisfy the CoST, will be granted. Time dictates that.

Details: If two similar ST waves interfere, their photons constructively sum up to transiently form the graviton -- and the local ST contracts = increase in the ST curvature. The reflective response to the ST curvature behind this wave is to expand -- equal and opposite to satisfy the CoST. If two dissimilar ST waves interfere, their photons destructively sum up (opposite spins sum to zero) to zero, forming the spinless, chargeless, *massless Higgs Boson, with no change in ST curvature -- unless and/or until it spontaneously decays back in to two equal but opposite spin-1 photons. One can see that ST curvature contraction = Dark Matter (DM) and ST curvature expansion = Dark Energy (DE). The CoST demands that the sum of all DM = the sum of all DE.

 XingChao Zhang/GETTY IMAGES Astronomers have just identified what appears to be a cosmic anomaly: a faint galaxy with so few visible stars that, according to calculations, as much as 99.9 percent of its mass is dark matter. The remaining 0.1 percent is conventional matter. This galaxy, located about 300 million light-years away, is practically invisible. Only four globular clusters, small…