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| The algorithim is: | | The algorithim is: |
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− | KnuthPaperStack(N):
| + | KnuthPaperStack(N): |
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− | y = log10(N)/3818
| + | y = log10(N)/3818 |
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− | If y >= 25824
| + | If y >= 25824 |
− | Z = Z + 1
| + | Z = Z + 1 |
− | z = KnuthPaperStack(y)
| + | z = KnuthPaperStack(y) |
− | Return z,Z
| + | Return z,Z |
− | Else
| + | Else |
− | Return y,Z
| + | Return y,Z |
− | End if
| + | End if |
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| --[[User:Markozeta|Markozeta]] ([[User talk:Markozeta|talk]]) 15:25, 20 January 2013 (UTC) | | --[[User:Markozeta|Markozeta]] ([[User talk:Markozeta|talk]]) 15:25, 20 January 2013 (UTC) |
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− | The explanation's assumption above that the gasoline bar is 4cm tall makes the piece of paper 96.5cm (38") tall, and that's just not practical. Using the scale I've based my statements on makes the gasoline bar just about 9mm. | + | The explanation's assumption above that the gasoline bar is 4cm tall makes the piece of paper 96.5cm (38") tall, and that's just not practical. Using the scale I've based my statements on makes the gasoline bar just about 9mm. |
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| -psychoboy[[Special:Contributions/70.164.66.64|70.164.66.64]] 19:57, 2 February 2013 (UTC) | | -psychoboy[[Special:Contributions/70.164.66.64|70.164.66.64]] 19:57, 2 February 2013 (UTC) |
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− | What is the energy density of gasoline if it undergoes nuclear fusion? {{unsigned ip|173.245.48.91}}
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− | This is similar to the iterated logarithm function, right? --[[Special:Contributions/199.27.128.192|199.27.128.192]] 21:28, 18 January 2015 (UTC)
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− | I actually had to present this chart when I was ten years old, but I needed to use a split level to save paper due to the theme of environmentalism.[[Special:Contributions/141.101.104.186|141.101.104.186]]
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− | The stated value of 76'000'000 MJ (76 Terajoules) per kg Uranium corresponds roughly to the energy released by the fission of U-235 nuclei of 202.5 MeV or 3.24·10-17 MJ per nucleus [[https://en.wikipedia.org/wiki/Nuclear_fission#Output]]. One kilogram of pure U-235 would release about 83 Terajoules. In a real nuclear power plant more energy is generated due to breeder reactions, so that per kg U-235 about 128 TJ are produced. One kilogram of natural uranium has about 0.71% U-235 and therefore the potential to produce about 910'000 MJ in a usual nuclear power plant. A fuel rod as used in a nuclear power plant (enriched to 3.5% U-235) has the potential to produce about 4.5 TJ. --[[Special:Contributions/162.158.150.231|162.158.150.231]] 01:19, 18 March 2016 (UTC)
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− | What if the number of iterations doesn't fit the room? [[Special:Contributions/141.101.80.74|141.101.80.74]] 21:25, 29 April 2016 (UTC)
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− | :Case 1: The original paper stack doesn't fit the room. --> Pin a paper to it showing how many iterations you need to write it out.
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− | :Case 2: The pinned paper stack doesn't fit the room. --> Pin a paper stack to THAT showing how many iterations you need to write it out.
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− | :Case 3: That pinned paper stack doesn't fit the room. --> Pin a paper stack onto that showing how many iterations you need to write it out.
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− | :etc.
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− | [[User:625571b7-aa66-4f98-ac5c-92464cfb4ed8|625571b7-aa66-4f98-ac5c-92464cfb4ed8]] ([[User talk:625571b7-aa66-4f98-ac5c-92464cfb4ed8|talk]]) 07:00, 8 March 2017 (UTC)
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