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User:Sixo Bullets/surprise ! baki calc transferal: Difference between revisions
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GiverOfThePeace (talk | contribs) (clean up and re-categorisation per CFD, replaced: User_blog → User (3)) m |
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== the first one == | == the first one == | ||
thank you to [https://vsbattles.fandom.com/wiki/ | thank you to [https://vsbattles.fandom.com/wiki/User_blog:KGiffoni KGiffoni] on vbw for the initial [https://vsbattles.fandom.com/wiki/User_blog:KGiffoni/Hanayama_breaks_someone_through_a_wall_(when_he_was_14) calc] .. always appreciated | ||
a new formula for me . so if mistakes are made , lmk . | a new formula for me . so if mistakes are made , lmk . | ||
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steel given volume (1/4) = 45,975 c^3 | steel given volume (1/4) = 45,975 c^3 | ||
as previously stated, the value for concrete's fracture toughness is middle-ground 0.4 j/cm³ . meanwhile, steel has a fracture toughness of [https://thecodex. | as previously stated, the value for concrete's fracture toughness is middle-ground 0.4 j/cm³ . meanwhile, steel has a fracture toughness of [https://thecodex.wiki/How_to_Handle_Calculations?so=search#Steel 87.5 j/cm³] | ||
(137,925 * .4) + (45,975 * 87.5) = 4,077,982.5 joules | (137,925 * .4) + (45,975 * 87.5) = 4,077,982.5 joules | ||
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== the third one == | == the third one == | ||
a third by [https://vsbattles.fandom.com/wiki/ | a third by [https://vsbattles.fandom.com/wiki/User_blog:DMUA DMUA] . thanks again . calculation [https://vsbattles.fandom.com/wiki/User_blog:DMUA/Destroying_the_statue_of_liberty here] | ||
this is for the destroying the statue of liberty using our fracture toughness standards | this is for the destroying the statue of liberty using our fracture toughness standards | ||
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but we'll just do with our basic iron & copper values for simplicity | but we'll just do with our basic iron & copper values for simplicity | ||
assuming [https://thecodex. | assuming [https://thecodex.wiki/User:MrWarnerTheGreat/Sandbox9#Copper this value] is still viable, copper has a fracture toughness value of 35 j/cm³ , & iron one of [https://thecodex.wiki/How_to_Handle_Calculations?so=search#Iron 67.5 J/cm³] | ||
given initial volume for iron appears to be 16,510,033.0201 cm^3 ... and i can't seem to recreate that at all, given an iron weight of 117,934 kg (130 tons), and a density of 7,874 KG/M^3 . the only value i can reproduce for the iron appears to be 14,977,647.9553 | given initial volume for iron appears to be 16,510,033.0201 cm^3 ... and i can't seem to recreate that at all, given an iron weight of 117,934 kg (130 tons), and a density of 7,874 KG/M^3 . the only value i can reproduce for the iron appears to be 14,977,647.9553 | ||
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the baki feat, however, has a downside in that there's an assumption that it took a multitude of strikes over a period of time . so going with the initial division of 20, '''0.00485824085''' tons of tnt . '''Wall level''' | the baki feat, however, has a downside in that there's an assumption that it took a multitude of strikes over a period of time . so going with the initial division of 20, '''0.00485824085''' tons of tnt . '''Wall level''' | ||
[[Category:Shonen]] | |||
[[Category:Baki the Grappler]] | |||
[[Category:Calculations]] | |||
[[Category:Blog posts]] | [[Category:Blog posts]] | ||
Latest revision as of 15:43, 7 January 2024
the baki page has a lot of old fragmentation method stuff and general links to vbw's resources.. so it'll be handled . thank you warner for sending me the goods to work with & put down
the first one
thank you to KGiffoni on vbw for the initial calc .. always appreciated
a new formula for me . so if mistakes are made , lmk .
middle-ground variable for concrete's fracture toughness used is 0.4 j/cm³
initial calc volume = 62,000 cubic centimeters
i assume we always do this volume reduction bit, so with a volume reduction of the average 70% ...
62,000 * .3 = 18,600 cm^3
0.4 * 18,600 cm^3 = 7,440 joules / 7.440 kilojoules . Peak Human level+ . so close to wall .. this isn't a bad bargain, given it's deemed acceptable for use in consideration of the feat itself (assuming my volume reduction was without flaw)
the second one
another by KGiffoni ... link here
calc uses a mixture of one-fourth steel & three-fourths concrete for a given volume
a total volume of 183,900 c^3
concrete given volume (3/4s) = 137,925 c^3
steel given volume (1/4) = 45,975 c^3
as previously stated, the value for concrete's fracture toughness is middle-ground 0.4 j/cm³ . meanwhile, steel has a fracture toughness of 87.5 j/cm³
(137,925 * .4) + (45,975 * 87.5) = 4,077,982.5 joules
again, applying a volume reduction of 70%
4,077,982.5 *.3 = 1,223,394.75 joules / 0.0002923983628107 tons of tnt . Wall level
the third one
a third by DMUA . thanks again . calculation here
this is for the destroying the statue of liberty using our fracture toughness standards
i'm not exactly sure of some of the values and materials here .. as there is a large variety of sources dancing around between an iron or steel framework, if it's wrought iron, etc..
but we'll just do with our basic iron & copper values for simplicity
assuming this value is still viable, copper has a fracture toughness value of 35 j/cm³ , & iron one of 67.5 J/cm³
given initial volume for iron appears to be 16,510,033.0201 cm^3 ... and i can't seem to recreate that at all, given an iron weight of 117,934 kg (130 tons), and a density of 7,874 KG/M^3 . the only value i can reproduce for the iron appears to be 14,977,647.9553
1,497,7647.9553 * 67.5 = 1010991236.98 joules (iron)
the initial copper value, however, is reproducible, so i'll be using the rate of 9,832,402.23464 cm^3
9,832,402.23464 * 35 = 344134078.212 joules (copper)
1010991236.98 + 344134078.212 = 1,355,125,315.19 joules (total)
volume reduction (70%, but this could be generous . statue of liberty has hollowness)
1,355,125,315.19 * .3 = 406,537,594.557 joules, or 0.0971648170547323 tons of tnt . Room level+
the baki feat, however, has a downside in that there's an assumption that it took a multitude of strikes over a period of time . so going with the initial division of 20, 0.00485824085 tons of tnt . Wall level
