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What is the hardest proof in math?

What is the hardest proof in math?

These Are the 10 Toughest Math Problems Ever Solved

  • 1 The Collatz Conjecture. Dave Linkletter.
  • 2 Goldbach’s Conjecture Creative Commons.
  • 3 The Twin Prime Conjecture.
  • 4 The Riemann Hypothesis.
  • 5 The Birch and Swinnerton-Dyer Conjecture.
  • 6 The Kissing Number Problem.
  • 7 The Unknotting Problem.
  • 8 The Large Cardinal Project.

What is the hardest proof?

Originally Answered: What are the hardest mathematical proofs ever? Fermat’s Last Theorem: Once in the Guinness Book of World Records as the most difficult mathematical problem until it was solved. The theorem goes as follow: x^n + y^n = z^n to have whole integers everywhere n can only be 1 or 2.

What is the hardest mathematical problem that can be understood?

Here is one of the hardest mathematical proofs of a problem that can be understood by a layman. It is is called the “4-Color Problem”. For most of human history maps were drawn in black or shades of black. When colors became widely available, they were used because it is easier to read a map that is colored.

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What is the largest proof in math?

It’s the largest math proof. A supercomputer solved it in just 2 days. And it’s 200 terabytes. Yes, 200 terabytes. That’s the size of the file containing the computer-assisted proof for a mathematical problem that has boggled mathematicians for decades—known as Boolean Pythagorean triples problem.

Are there any mathematical problems that have never been solved?

As you can see in the equations above, there are several seemingly simple mathematical equations and theories that have never been put to rest. Decades are passing while these problems remain unsolved. If you’re looking for a brain teaser, finding the solutions to these problems will give you a run for your money.

Is there a simple mathematical proof that doesn’t need a computer?

Forty years later, the proof has been simplified, but still requires a computer. Such a simply-stated problem makes mathematicians think that a simpler proof – one that doesn’t need a computer – should exist. Yet, none has been found. Since then, there have been more proofs that require computers, but what shall we do?