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Merry 9/11 and Happy Holidays - New General Megathread for the 11th-13th of September 2024

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Building implosion

In the controlled demolition industry, building implosion is the strategic placing of explosive material and timing of its detonation so that a structure collapses on itself in a matter of seconds, minimizing the physical damage to its immediate surroundings. Despite its terminology, building implosion also includes the controlled demolition of other structures, like bridges, smokestacks, towers, and tunnels. This is typically done to save time and money of what would otherwise be an extensive demolition process with construction equipment, as well as to reduce construction workers exposure to infrastructure that is in severe disrepair.

Building implosion, which reduces to seconds a process which could take months or years to achieve by other methods, typically occurs in urban areas[citation needed] and often involves large landmark structures.

The actual use of the term "implosion" to refer to the destruction of a building is a misnomer. This had been stated of the destruction of 1515 Tower in West Palm Beach, Florida. "What happens is, you use explosive materials in critical structural connections to allow gravity to bring it down.

The term "implosion" was coined by my grandmother back in, I guess, the '60s. It's a more descriptive way to explain what we do than "explosion". There are a series of small explosions, but the building itself isn't erupting outward. It's actually being pulled in on top of itself. What we're really doing is removing specific support columns within the structure and then cajoling the building in one direction or another, or straight down.

  • Stacy Loizeaux, NOVA, December 1996

Building implosion techniques do not rely on the difference between internal and external pressure to collapse a structure. Instead, the goal is to induce a progressive collapse by weakening or removing critical supports; therefore, the building can no longer withstand gravity loads and will fail under its own weight

Numerous small explosives, strategically placed within the structure, are used to catalyze the collapse. Nitroglycerin, dynamite, or other explosives are used to shatter reinforced concrete supports. Linear shaped charges are used to sever steel supports. These explosives are progressively detonated on supports throughout the structure. Then, explosives on the lower floors initiate the controlled collapse.

A simple structure like a chimney can be prepared for demolition in less than a day. Larger or more complex structures can take up to six months of preparation to remove internal walls and wrap columns with fabric and fencing before firing the explosives.

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  • @WhyEssEff@hexbear.net Hii sorry was off of the site for a few days but I wanted to say your explanation about vectors helped a lot

    Realized I was only conceiving of vectors as in Euclidean vectors or something, will do some reading

    I keep posting my fucking L-brained ideas about math dog-screm

    There will probably be more, I'm sorry

    I blame my shit Burgerreich high school math classes for not telling me more about vectors than magnitudes and directions maddened

    • No worries, it's honestly a necessary artifact of how we teach these things; you have to glom the concept on to something initially intuitive for people to develop a working understanding of it, even if the concept is more of an abstract idea. There's no shame in seeking out knowledge. If you don't get it, you don't get it, you can't exactly help not knowing something. not a bad thing to seek out help in understanding things shrug-outta-hecks

      with regards to Linear Algebra (field that covers matrices among other concepts), this video course by 3blue1brown was formative for my understanding of the field. very approachable, imo

      with regards to abstraction of mathematical concepts, here's the Abstract and Discrete Mathematics textbook I've been assigned for my college course this semester

      • one interesting kinda surface-level thing about matrices (imo) is that your computer/phone screen is a matrix, internally. each pixel is a tuple of three numbers[^1] (red light brightness, blue light brightness, green light brightness) attached to a specific index of a matrix with the columns and rows corresponding to your screen resolution. Changing your screen brightness alters the colors unilaterally–an instance of scalar operations on a matrix we use pretty much daily.

        [^1]: usually bytes (8-bits) but there's some that do 10-bit colors

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