| Display title | Continuous Decompression |
| Default sort key | Continuous Decompression |
| Page length (in bytes) | 13,387 |
| Namespace ID | 0 |
| Page ID | 85373 |
| Page content language | en - English |
| Page content model | wikitext |
| Indexing by robots | Allowed |
| Number of redirects to this page | 0 |
| Counted as a content page | Yes |
| Number of subpages of this page | 0 (0 redirects; 0 non-redirects) |
| Edit | Allow all users (infinite) |
| Move | Allow all users (infinite) |
| Delete | Allow all users (infinite) |
| Page creator | prefix>Import Bot |
| Date of page creation | 21:27, 1 November 2013 |
| Latest editor | Looney Toons (talk | contribs) |
| Date of latest edit | 15:44, 4 January 2021 |
| Total number of edits | 9 |
| Recent number of edits (within past 180 days) | 0 |
| Recent number of distinct authors | 0 |
| Transcluded templates (5) | Templates used on this page:
|
Description | Content |
Article description: (description)
This attribute controls the content of the description and og:description elements. | In (real) Explosive Decompression, if a pressure vessel's structure were to be compromised, all of the gas held inside would rush out until a state of equilibrium has been achieved (if this pressure vessel were in space, this would effectively mean all the gas would be blown out). Keep in mind that there's only 14psi between 1 atmosphere and vacuum. It would take a very large hole to produce actual explosive decompression. Consider an automobile tire at twice that pressure differential; if it gets a hole in it, the air leaks out. It does not explosively decompress unless the structure of the tire fails completely (e.g. if it is overheated). |