Right after the bigbang, microblackholes were formed

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In summary, the conversation discusses the creation and evaporation of micro black holes, specifically in relation to the Hadron Collider. The possibility of higher dimensions and string theory is also mentioned. The conversation ends with a humorous exchange about the potential dangers of tampering with space-time.
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chhitiz
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i read somewhere that right after the bigbang, microblackholes were formed which later vaporised. is it true? how can they simply have vaporised?
 
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Don't they theorize that the new Hadron Collider will produce tiny black holes that will evaporate in nano seconds?? (No, I'm not talking about the earth-devouring ones that people are scared of...those come later, lol)
 
  • #4


orbit-one said:
Don't they theorize that the new Hadron Collider will produce tiny black holes that will evaporate in nano seconds?? (No, I'm not talking about the earth-devouring ones that people are scared of...those come later, lol)

Scientists, mad or otherwise, should never do anything that is going to rip the fabric of space-time. Those kinds of things frequently expose you to higher dimensional monsters and never end well. It's all covered in the Mad Scientist's Handbook. Maybe they should read it at CERN.
 
  • #5


orbit-one said:
Don't they theorize that the new Hadron Collider will produce tiny black holes that will evaporate in nano seconds??

Some people think so. I seem to recall that if itty bitty black holes are created, this would demonstrate that there are probably more than 4 dimensions and the string theorists will get really really excited and probably drunk. If black holes don't show up, it doesn't mean much of anything, and life goes on as usual, with a few less drunken string theorists.
 
  • #6


Bob3141592 said:
Scientists, mad or otherwise, should never do anything that is going to rip the fabric of space-time. Those kinds of things frequently expose you to higher dimensional monsters and never end well. It's all covered in the Mad Scientist's Handbook. Maybe they should read it at CERN.

Er... "frequently"? Like when? When was the last time you saw this "rip the fabric of space-time" happening?

Zz.
 
  • #7


ZapperZ said:
Er... "frequently"? Like when? When was the last time you saw this "rip the fabric of space-time" happening?

i saw it happen on TV once. involved someone named Q.
 

Related to Right after the bigbang, microblackholes were formed

What is the big bang theory?

The big bang theory is the widely accepted scientific explanation for the origin and evolution of the universe. It states that the universe began as a singularity, an infinitely small and dense point, and expanded rapidly about 13.8 billion years ago.

What are microblackholes?

Microblackholes are theoretical objects that are believed to have formed in the early stages of the universe after the big bang. They are extremely small and have a mass comparable to a single particle, but they possess a strong gravitational pull.

How were microblackholes formed after the big bang?

According to the big bang theory, the early universe was extremely hot and dense. As the universe expanded and cooled, some regions became denser than others due to quantum fluctuations. These dense regions could have collapsed into microblackholes, which would have then evaporated quickly due to Hawking radiation.

Can microblackholes still exist today?

It is unlikely that microblackholes still exist today. The intense radiation and high energy collisions in the early universe would have caused them to evaporate quickly. Additionally, the expansion of the universe would have caused them to be spread out and become less dense.

What impact could microblackholes have on the universe?

Microblackholes are too small to have a significant impact on the universe. Even if they did exist, they would have evaporated quickly and would not have caused any major changes to the structure of the universe. However, studying microblackholes can provide valuable insights into the early stages of the universe and the laws of physics.

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