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Typo + wrong name
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@ -201,8 +201,7 @@ If your threat model is a bit smaller, simulate putting a smaller object into th
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## Sample unbreakable passwords
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According to KeePassXC's password generator, each of the following passwords has en
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entropy between 330 and 340 bits.
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According to KeePassXC's password generator, each of the following passwords has an entropy between 330 and 340 bits.
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Using the extended-ASCII character set:
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@ -261,7 +260,7 @@ Another well-known approach to calculating physical limits of computation is Bre
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## Acknowledgements
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Thanks to Barna Zsombor and InPhase for helping me over IRC with my shaky physics and pointing out the caveats of my approach.
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Thanks to Barna Zsombor and Ryan Coyler for helping me over IRC with my shaky physics and pointing out the caveats of my approach.
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My notes from Thermal Physics weren't enough to write this; various Wikipedia articles were also quite helpful, most of which were linked in the body of the article.
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@ -260,7 +260,7 @@ MOAC a one-in-ten-trillion chance of cracking a password with 256 entropy bits a
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Sample unbreakable passwords
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----------------------------
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According to KeePassXC's password generator, each of the following passwords has en
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According to KeePassXC's password generator, each of the following passwords has an
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entropy between 330 and 340 bits.
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Using the extended-ASCII character set:
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