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4 thoughts on “Did Future Humans Accidentally Create the Current Universe?”
This reminds me of a book called “Picoverse” by Metzger
“physicists working on fusion power stumble onto a way to create new, smaller universes called picoverses, which replicate everything in our universe but smaller”
Cool book, a planet size thinking machine trys to get out into our universe from one of the smaller universes it develops in.
First of all there was no big bang as current science try to theorize. But there was a riple effect starting in the vacum due to the fakt that even in a then emty space, due to the fakt that the universe is infinitive big, the vacum was not 100% the same everywhere. Due to billions of years of pulls in the vacum of energy it slovly evolved more waves of energy to create many different sinewaves and therefore manny different Hz. There on fine matter (energy) was compressed slowly to create coarse energy (matter). There was no big bang and the universe has slowly developed and evolved to as it is to day. And I dont care a challenge agenst me to prove me wrong: Prove to me there was a big bang; U cant! So ways I can’t prove there was a ripple effect but I can however explain how the universe was born in a better way than any theory of big bang tells. Big bang is a faritale and will always be a faritale.
Futhermore the universe is created as it is to day due to spiritual inteligense.
Revised this for 2025, including the info that if you shrank the Earth to 8.87 millimeters, it would become a black hole, which is the Schwarzschild radiusâthe point at which Earth’s mass would collapse into a singularity under its own gravity, with an event horizon about the size of a small pea.
A black hole is mind-bogglingly dense. Imagine compressing Earth’s entire mass (about 5.97 Ă 10²ⴠkg) into the size of a tiny sphere the diameter of a green pea or the width of an average adult’s pinky fingernail. This would create an object with escape velocity equal to the speed of light. It would be smaller than a US dime coin (which is around 18 mm in diameter) but larger than a grain of rice (typically 5-7 mm long). What would it look like if it appeared in your kitchen?
Why Youâd See âNothingâ
Speed of Events vs. Human Perception: The black holeâs gravitational pull is so intense that nearby objects (including you, air, and kitchen items) would accelerate toward the event horizon at extreme speeds, reaching it in milliseconds for anything within a few meters. Human visual perception, however, operates on a slower timescale. The brain processes visual stimuli in about 100-150 milliseconds under optimal conditions. By the time your brain could register an image, objects (and likely you) would already be in the process of being pulled into the black hole or destroyed by tidal forces.
Light Bending and Chaos: The black holeâs gravitational lensing would distort light from your surroundings, creating a warped, ring-like effect around the tiny (8.87 mm) dark point. However, this visual effect would be fleeting because the black hole would almost instantly start consuming nearby matter, including air and light sources (e.g., your kitchen lights). The rapid collapse of your environment would disrupt any coherent visual scene, and the intense gravitational forces would likely extinguish or obscure light before it reaches your eyes.
Your Own Fate: If youâre within a few meters of the black hole, youâd be accelerated toward it so quickly (at a significant fraction of the speed of light) that youâd be spaghettifiedâstretched and torn apart by tidal forcesâbefore your brain could process any visual input. Even if youâre farther away (say, 10 meters), the kitchen would implode in seconds, and the disruption of air and light would make seeing anything meaningful impossible.
What You Might Perceive
If you were somehow far enough away to survive for a fraction of a second (e.g., 10-20 meters, where gravitational acceleration is still extreme but not instantly lethal), you might catch a fleeting glimpse of:
A dark point surrounded by a distorted, lens-like ring where light from behind the black hole is bent.
A violent rush of objects (utensils, furniture) flying toward that point, possibly accompanied by a brief glow if matter forms a small accretion disk.
A sudden darkening as air and light sources are consumed or disrupted.
However, these visuals would last only a fraction of a second before the black holeâs effects dominate, and your ability to perceive them would be cut short by the physical destruction of your surroundings or yourself. The human eye and brain simply canât keep up with events unfolding on a millisecond timescale.
Luckily, the entire earth compressed to the size of a pea will not appear in your kitchen today.
And yes, a kitchen 10-20 meters (33-66 feet) in length or width is enormous by typical human kitchen standards. A typical kitchen (3-5 meters across) would offer no chance of perceiving anything, as the black holeâs effects would be more immediate.
This reminds me of a book called “Picoverse” by Metzger
“physicists working on fusion power stumble onto a way to create new, smaller universes called picoverses, which replicate everything in our universe but smaller”
Cool book, a planet size thinking machine trys to get out into our universe from one of the smaller universes it develops in.
Peace
First of all there was no big bang as current science try to theorize. But there was a riple effect starting in the vacum due to the fakt that even in a then emty space, due to the fakt that the universe is infinitive big, the vacum was not 100% the same everywhere. Due to billions of years of pulls in the vacum of energy it slovly evolved more waves of energy to create many different sinewaves and therefore manny different Hz. There on fine matter (energy) was compressed slowly to create coarse energy (matter). There was no big bang and the universe has slowly developed and evolved to as it is to day. And I dont care a challenge agenst me to prove me wrong: Prove to me there was a big bang; U cant! So ways I can’t prove there was a ripple effect but I can however explain how the universe was born in a better way than any theory of big bang tells. Big bang is a faritale and will always be a faritale.
Futhermore the universe is created as it is to day due to spiritual inteligense.
Interesting – How did the infinitely large empty space come to be?
Revised this for 2025, including the info that if you shrank the Earth to 8.87 millimeters, it would become a black hole, which is the Schwarzschild radiusâthe point at which Earth’s mass would collapse into a singularity under its own gravity, with an event horizon about the size of a small pea.
A black hole is mind-bogglingly dense. Imagine compressing Earth’s entire mass (about 5.97 Ă 10²ⴠkg) into the size of a tiny sphere the diameter of a green pea or the width of an average adult’s pinky fingernail. This would create an object with escape velocity equal to the speed of light. It would be smaller than a US dime coin (which is around 18 mm in diameter) but larger than a grain of rice (typically 5-7 mm long). What would it look like if it appeared in your kitchen?
Why Youâd See âNothingâ
Speed of Events vs. Human Perception: The black holeâs gravitational pull is so intense that nearby objects (including you, air, and kitchen items) would accelerate toward the event horizon at extreme speeds, reaching it in milliseconds for anything within a few meters. Human visual perception, however, operates on a slower timescale. The brain processes visual stimuli in about 100-150 milliseconds under optimal conditions. By the time your brain could register an image, objects (and likely you) would already be in the process of being pulled into the black hole or destroyed by tidal forces.
Light Bending and Chaos: The black holeâs gravitational lensing would distort light from your surroundings, creating a warped, ring-like effect around the tiny (8.87 mm) dark point. However, this visual effect would be fleeting because the black hole would almost instantly start consuming nearby matter, including air and light sources (e.g., your kitchen lights). The rapid collapse of your environment would disrupt any coherent visual scene, and the intense gravitational forces would likely extinguish or obscure light before it reaches your eyes.
Your Own Fate: If youâre within a few meters of the black hole, youâd be accelerated toward it so quickly (at a significant fraction of the speed of light) that youâd be spaghettifiedâstretched and torn apart by tidal forcesâbefore your brain could process any visual input. Even if youâre farther away (say, 10 meters), the kitchen would implode in seconds, and the disruption of air and light would make seeing anything meaningful impossible.
What You Might Perceive
If you were somehow far enough away to survive for a fraction of a second (e.g., 10-20 meters, where gravitational acceleration is still extreme but not instantly lethal), you might catch a fleeting glimpse of:
A dark point surrounded by a distorted, lens-like ring where light from behind the black hole is bent.
A violent rush of objects (utensils, furniture) flying toward that point, possibly accompanied by a brief glow if matter forms a small accretion disk.
A sudden darkening as air and light sources are consumed or disrupted.
However, these visuals would last only a fraction of a second before the black holeâs effects dominate, and your ability to perceive them would be cut short by the physical destruction of your surroundings or yourself. The human eye and brain simply canât keep up with events unfolding on a millisecond timescale.
Luckily, the entire earth compressed to the size of a pea will not appear in your kitchen today.
And yes, a kitchen 10-20 meters (33-66 feet) in length or width is enormous by typical human kitchen standards. A typical kitchen (3-5 meters across) would offer no chance of perceiving anything, as the black holeâs effects would be more immediate.