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  • Hi! My name's Kenneth...

  • Here are some more thoughts I had on the Rubik's Cube.

  • Last time we looked at how many possible positions or permutations a Rubik's Cube could be twisted.

  • We found out that the answer is 43 quintillion.

  • We also found, that 43 quintillion is quite large.

  • Many people asked about the V-Cube 7. They wanted to know how many more positions are

  • in a 7x7.

  • Well let's compare the two.

  • First we'll start with a Rubik's Cube.

  • Last time we used a sheet of paper to represent a Rubik's Cube. This time we'll go smaller.

  • A standard Rubik's Cube is 57mm on each side.

  • Currently the smallest 3x3 in the world is the Elemental Cube. It's 8mm on each side.

  • But we need smaller for our calculations.

  • Let's imagine we have a machine that can shrink a Rubik's Cube down to the size of this....

  • A carbon atom.

  • Now we will see what 43 quintillion carbon atom sized Rubik's Cubes would look like.

  • Using high school chemistry we can calculate the mass of 43 quintillion carbon atoms. Remember,

  • even though 43 quintillion is a big number, atoms are small...

  • 43 quintillion carbon atoms weighs in at .85 mg. That's about 1/7000th of my elemental

  • cube, or some shavings off of my pencil.

  • Now lets look at the V-Cube 7.

  • Lets do the same thing, only this time we'll use any atom, not just carbon.

  • The 7x7 has 19 duoquinquagintillion possible positions or permutations.

  • So what does 19 duoquinquagintillion atoms look like??

  • Well, it's more atoms than you would find in a Pencil.

  • More atoms than you would find in your house.

  • More atoms than you would find in the tallest building in the world.

  • More atoms than all the atoms in all the oceans of the earth.

  • More atoms than the earth and moon combined.

  • More atoms than our solar system.

  • More than our galaxy..

  • Even more atoms than all the atoms in the visible universe!!

  • If I were to stop here... I would be doing you a disservice.

  • If I stop now I will have failed at making an accurate comparison.

  • In fact to say there are more possible positions in a 7x7x7 than atoms in our universe would

  • be a vast understatement!!

  • You wouldn't need 2 or 3 universes full of atoms...

  • Not even 1,000 or a million would be enough.

  • You would need 10 to the power of 80 universes full of atoms...

  • That's a universe for each atom in this universe.

  • Remember that in all of these universes full of atoms, there is only 1 atom in 1 universe

  • that represents a solved 7x7. It's your job to find that atom.

  • So... What does this tell us?

  • This tells us that the difficulty of a puzzle is not determined solely on the number of

  • possible permutations.

  • If it were so, the V-cube 7 would be impossible.

  • I hope you enjoyed my video. It was a lot of fun to make.

  • If you like it you can click the like button or share it with a friend.

  • I do come out with new videos every other weekend so stay tuned for the next video.

  • Thanks guys for watching.

  • And of course have a great day!

Hi! My name's Kenneth...

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ルービックキューブはなぜ難しいのか--第2話 (Why is the Rubik's Cube so Hard -- Episode 2)

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    LIAM に公開 2021 年 01 月 14 日
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