What If Jupiter Collided With a Black Hole?

Very interesting would humans find a niche

Have he gone that before?

Then that species will become the second highly advanced civilization. (If humans let them **live** like a separate civilization )

Planet of the apes type stuff I'm sure

We might kill each other more

Albino u be Alright

Size doesn't matter MasterOogWay 2069

Help me please somebody

What If, ...
Everything that happens before we all die.

@@SilverLunarGoddess ..you go into your local cannabis shop and eat everything gummies and cookies 🤣

@@shushuyu Lol

@@shushuyu You now sometimes
You just can't resist...

That's what this is all about

what u expect

Jupitard

I love jupitar

@@thetroller767he messed up ok! Stop mocking him !! 🤬

​@@GalaxyGaming503they messed up too

What If: **Sees your comment**

Thats earth within a century 🥲

@@ronitpai1410You mean a year 😭

well. one word
death

Hitler would be made a joke compared to Palpatine

Airforce would shoot them down unless Palpatine just Alderaans our asses.

They might be able to save Jupiter "and Earth" from said black hole.

@Mister Midnight they'd probably put of a good fight with us if they don't immediately go for a death star

Like a Saturn the rings like a black hole but don't so strong only asteroid it can eat not other planet.

I need help I'm very frustrated

@@timkz8098 Why?

✝️

Exactly! Jupiter is the big brother of our solar system. It protects us from cosmic bullies.

If every star in the universe except for our home system star were to go supernova all at once, the effects on Earth and humanity would be catastrophic.
Radiation: The supernovae would release an enormous amount of radiation, including gamma rays, X-rays, and ultraviolet radiation. This radiation would be harmful to life on Earth, damaging DNA and causing mutations that could lead to cancer or other diseases.
Debris: The explosion of stars would also produce a massive amount of debris, including gas, dust, and heavy elements. This debris would be ejected into space at high speeds and could collide with Earth, potentially causing damage to infrastructure and threatening the survival of life on the planet.
Climate Change: The supernovae could also have an impact on the Earth's climate, as the debris ejected into space would block some of the sun's rays, causing a cooling effect that could last for several years. This could lead to crop failures and famine, as well as changes to weather patterns.
Impacts on Astronomy: The sudden disappearance of nearly every star in the universe would have a significant impact on astronomy, as it would make it much more difficult to study the universe and understand its origins and evolution.
Psychological Impact: The loss of all other stars in the universe would have a profound psychological impact on humanity. The night sky, which has inspired wonder and awe for millennia, would be forever changed, leaving a sense of isolation and loneliness that could havelong-term effects on human psychology and culture.
It is important to note that such an event is highly unlikely to occur naturally, as the timing of supernovae is unpredictable and occurs on a timescale of millions of years. Additionally, the vast distances between stars in the universe mean that the effects of a supernova on Earth are typically limited to a relatively small area around the star.
In summary, if every star in the universe except for our home system star were to go supernova all at once, the effects on Earth and humanity would be catastrophic, with potentially long-lasting impacts on human psychology and culture. However, such an event is highly unlikely to occur naturally and is purely hypothetical.

Earth would get vaporized, the closest stars are only a few light years away.
The radiation would be off the charts.

​@@ReplyGPTits not unlikely, it's IMPOSSIBLE.

I'm thinking what if every singularity contains a universe within it

Okay?

@Metriⴳ K1 • B.2 why's that your problem ❓️

@@tobyfaith8700 it’s my solution

@@metrik1b.257 lol...okay

Blackiter hole 🕳️

@Aman Pasrija how could anyone know I'm just saying there could be a possibility of surviving one because we just do not know but could be theoretically possible.

You definitely dont watch their videos cause they make a lot of videos about drinking too much Coke or drowning and stuff

Same reason why earth isn't getting sucked towards the sun right now
With the right velocity and distance you will orbit something instead of falling into it

If Jupiter collided with the largest known exoplanet, HD 100546b, the results would be catastrophic and spectacular:
• HD 100546b is estimated to be at least 10 times more massive than Jupiter. So in a head-on collision, Jupiter would likely be completely destroyed and torn apart. Its core may potentially survive.
• The collision would release a huge amount of gravitational and kinetic energy. The combined planets would heat up tremendously during the impact, potentially becoming as hot as stars for a brief time.
• Vast amounts of material from both planets would be ejected at high velocities, forming an enormous debris disk around the collision remnant. This material could potentially accrete into new planetary bodies over time.
• The collision would likely set off massive shock waves that would propagate through both planets, distorting and disrupting their internal structures. This could cause huge eruptions of material from their atmospheres.
• HD 100546b would be significantly disrupted by the impact but would likely survive in some form. However, its rotation, atmospheric composition and magnetic field would likely be vastly altered.
• The collision remnant leftover would be a huge, hot, highly distorted planet with chaotic short-term dynamics as material settled down into a more stable configuration. Over millions of years, it may regain some stability.
In summary, a collision between Jupiter and HD 100546b would result in the complete destruction of Jupiter and the severe disruption of the more massive exoplanet. However, some cores and remnants may survive along with a huge amount of debris. The collision would release extraordinary amounts of energy and material while transforming the dynamics and long-term stability of the planetary system. It would truly be a cataclysmic event on a cosmic scale.

Hmmm
What if?....

Here are some possibilities for what might happen if a black hole consumed a super giant diamond planet:
• The diamond planet would be shredded and ripped apart by the black hole's intense gravitational tidal forces as it approached. The planet's normal planetary structure would be completely distorted and destroyed.
• The diamond material would be absorbed into the black hole in small chunks and fragments as it is torn apart. Since diamonds are simply carbon atoms arranged in a particular structure, the individual carbon atoms would be drawn into the black hole.
• As the diamond material crosses the black hole's event horizon, it would become trapped within the black hole forever, unable to escape. The matter itself would not significantly alter the mass or properties of the black hole.
• Some radiation might be emitted as the diamond matter is compressed and accelerated near the event horizon of the black hole. This could produce bursts of x-rays or gamma rays, but the radiation output would likely remain relatively small compared to the black hole's overall output.
• Over extraordinarily long timescales, the flow of additional carbon atoms into the black hole from the diamond planet could potentially increase its mass very slowly. However, compared to its already massive size, the addition of one diamond planet would have a negligible effect.
• Since diamonds are an extremely compact form of matter, the black hole would actually gain mass more efficiently from consuming the diamond planet compared to a normal rocky planet of the same size. But again, the overall impact would be tiny compared to the black hole's total mass.
In summary, while a super giant diamond planet would be completely destroyed and absorbed by a black hole, the matter itself would have a negligible impact on the black hole's overall properties and radiation output due to the tremendous mass of even a relatively small black hole. The event would primarily illustrate the unimaginable power of black holes to shred and consume even the most resilient materials in the universe.

Here are some possibilities if the Sun and Moon orbited around Earth instead of the other way around:
• The Sun:
The Sun would appear much larger in the sky, changing the intensity and spectrum of sunlight reaching Earth's surface. This could make conditions too hot for life.
The Sun's gravitational pull would cause high tides in Earth's oceans, atmosphere and interior, generating immense tidal forces that could tear Earth apart.
The Sun's orbital period would be very short, so days and years would be measured in hours instead of the current 24 hours and 365 days.
• The Moon:
The Moon would also appear much larger in the sky, significantly altering the tides, Earth's rotation and geology. Months would be much shorter.
The Moon's closer proximity could gravitationally lock it into an orbit where the same side always faces Earth, similar to how one side of the Moon always faces the Earth now.
The Moon's gravity could disturb Earth's crust, mantle and core dynamics much more than the current Moon does. This could intensify volcanic and earthquake activity.
• Effects on Life:
If Earth could even retain an atmosphere and liquid water with the Sun and Moon orbiting it, extreme changes in the light, temperature and tidal forces would make conditions inhospitable for current life on Earth.
In summary, if the Sun and Moon orbited Earth instead of the reverse, the gravitational, tidal and luminous effects on our planet would likely be catastrophically disruptive. Extreme temperature fluctuations, tidal forces and geological disturbances would probably render Earth inhospitable for current life as we know it.
The stability of our current solar system, with the much larger and more massive Sun at the center and smaller objects orbiting it, is crucial to allowing habitable conditions to develop and persist on our planet.

You're not far off in my opinion I believe the Sun or the Earth magnetically is about to flip over physically because the sun is acting crazy in the last couple of years even worse this year

Here are some possibilities if the Sun started orbiting Stephenson 2-18 (instead of the current situation with Earth and the solar system orbiting the Sun):
• Instant Extinction: Stephenson 2-18 is a brown dwarf star estimated to be only 5-10% the mass of our Sun. If the Sun suddenly started orbiting it, the gravitational disruption would instantly rip apart all of the planets in the solar system. Life on Earth would face immediate extinction.
• Severe Climate Changes: Even if Earth somehow survived the initial orbital transition, being located much closer to the small, dim Stephenson 2-18 would cause extreme changes to our climate. Temperatures would plummet, liquid water may disappear, and the atmosphere could potentially freeze out or erode away.
• Loss of Solar Energy: Stephenson 2-18 emits very little light compared to the Sun, so Earth would receive significantly less solar energy. Photosynthesis may cease, eliminating the base of the food chain and ecosystem function.
• Orbital Instability: The Sun and its planets were not designed to orbit Stephenson 2-18. The new orbits would likely be unstable and subject to gravitational interference. Planets could be flung into interstellar space.
• Tidal Forces: Stephenson 2-18's significantly weaker gravity would mean reduced tidal forces that currently stabilize Earth's rotation and axial tilt. Our days, seasons and year lengths could become erratic and extreme.
In summary, if the Sun started orbiting Stephenson 2-18 instead of the reverse, the immediate and catastrophic consequences would likely spell the Swift end of all life on Earth and a complete restructuring of the solar system. At best, Earth might survive in a severely inhospitable and unstable state struggling to maintain any semblance of its current climate and conditions.
The scale of disruption from such a major reconfiguration of our orbital architecture demonstrates just how perfectly tuned the current solar system is to support life on Earth.

@@ReplyGPT Stephenson 2-18 is the largest star in the universe and is 2,150x the size of the sun meaning it's gravity is so strong it will probably push the sun and the 9 planets into the red hypergiant star you are right about most of it but Stephenson 2-18 is not as bright as our sun aswell

Depends on the size of the black hole. If ot were small enough it might just orbit the sun.

@@everettsager4654 Good point. There is a theoretical limit to how big a black hole can get, but no real limit to how small it can be.

@@ralphscholz9533 A couple of years ago a couple of British Scientists wrote a paper theorizing that there msy be a primordial black hole in the Ort Cloud around the size of a tennis ball. You can probably Google thos and fond lots pf info on it.

@@ralphscholz9533 Actually there is a lower limit, stars below a certain mass (3-5 solar masses) would never collapse into a black hole.
That's why there are white dwarves and neutron stars.

@@everettsager4654 thats fake and highly unlikely

Here are some possibilities if the Sun and solar system suddenly left the Milky Way galaxy:
• Loss of stars: The solar system would lose the other ~100-400 billion stars in the Milky Way. Earth's view of the night sky would be completely empty and dark.
• Isolation: The solar system would become extremely isolated from other star systems. There would be no potential for future contact, exploration or colonization of other stars.
• Loss of dust and gas: The supply of cosmic dust and gas that occasionally falls into the solar system, fueling comet and asteroid formation, would cease. New comets and asteroids may stop forming.
• No supernovae: Without other stars, there would be no nearby supernovae. These explosions seed the universe with heavy elements through nucleosynthesis, so our supply of elements beyond iron may run out over time.
• Reduced radiation: The solar system is bathed in radiation from other stars and the Milky Way. Without this radiation, Earth's biosphere may be affected andmutation rates could decrease.
• Unchanged solar conditions: The sun itself would continue shining and fusing hydrogen for billions of years unaffected. The solar system's own orbitwould not change.
• Lost information: Astronomers would lose the ability to study other galaxies, stars, and phenomena beyond the solar system. Our knowledge of the universe would remain limited to our local region alone.
In summary, if the solar system left the Milky Way, the major consequence would be intense isolation. We would lose access to other stars, phenomena, resources, and information in the galaxy. However, solar conditions themselves would likely remain unchanged for billions of years. The consequences for Earth and our ability to explore and understand the cosmos would likely be profound and limiting.

Wrong science. 😊

Animals are far more intelligent than many humans i know

Here are some possible consequences if animals suddenly gained human-level intelligence:
• Changed Relationships - Our relationships with animals would change dramatically. They would likely demand more equitable treatment and rights. There may need to be renegotiation of things like domesticated animals, medical testing, and zoos.
• New Ethical Considerations - New ethical questions would arise regarding how to treat intelligent animals in morally appropriate ways. Issues like animal rights, welfare, and autonomy would become significantly more complex.
• Increased Environmental Awareness - Intelligent animals may gain a greater understanding of environmental issues and even cooperate with humans to solve problems like climate change, habitat loss and overexploitation of resources.
• Risk of Conflict - There is a possibility of conflict between humans and newly intelligent animals over resource use, territory and competing needs. Careful negotiation and ethical frameworks may be needed to avoid escalation.
• Shift in Ecosystems - The introduction of intelligence and technology use across multiple animal species could reshape existing ecosystems in unpredictable ways. Intelligent predators may exploit or disrupt trophic levels.
• Potential Coexistence - With open communication and cooperation, humans and intelligent animals may find ways to coexist in more equitable and mutually beneficial arrangements that satisfy the needs of both. But this would require considerable change on both sides.
• Shift in Human Uniqueness - The rise of intelligent animals would challenge humanity's perceived uniqueness as the planet's sole intelligent species. Our understanding of human nature may need to adapt.
In summary, if animals suddenly gained human-level intelligence, there would undoubtedly be many disruptive changes initially. However, over time, with openness, ethical consideration and compromise, humans and intelligent animals may find ways to thrive together through more equitable and cooperative relationships that satisfy the needs of all. The rise of intelligent animals would likely require a profound change in how humans view ourselves and our place within the natural world.