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    • Image courtesy of skyscrapercity.com

      skyscrapercity.com

      • If a skyscraper is 200 m (650 ft) tall and a gale blows it hard at the top, there's a huge turning force trying to tip the whole building over to the side. That's why tall buildings need deep foundations (where a significant part of the building is constructed underground to support the part that's above ground).
      www.explainthatstuff.com/howbuildingswork.html

      How buildings work: the science of forces and static structures

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  3. science.howstuffworks.com › engineering › structuralFighting Gravity - How Skyscrapers Work - HowStuffWorks

    To make a tower that is "multiple-people high," you need more people on the bottom to support the weight of everybody above. This is how "cheerleader pyramids" work, and it's also how real pyramids and other stone buildings work.

  4. theconstructor.org › structures › high-riseThe Sky-High Science of Skyscraper Construction

    The use of high-strength concrete (HSC) in the construction of skyscrapers is essential for achieving their towering heights. With its superior characteristics, HSC makes the construction of skyscrapers much more feasible than it would be without the use of this material.

  5. archive.curbed.com › 2015/9/24 › 9917752The Engineering Tricks Behind the World's Super Tall and ...

    Air pushing against the surface of a tall tower creates vortices, concentrated pockets of force that can shake and vibrate buildings (the technical term is vortex shedding). The aim of any...

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  7. www.explainthatstuff.com › howbuildingsworkHow buildings work: the science of forces and static structures

    Feb 27, 2023 · How a building supports its own weight. It's not only sideways, toppling forces that buildings have to withstand. If you've ever picked up a brick or a piece of stone masonry, you'll know it's reasonably heavy. Now imagine how much all the bricks or blocks of stone in a skyscraper weigh.

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  8. science.howstuffworks.com › engineering › structuralMaking It Functional - How Skyscrapers Work - HowStuffWorks

    Making It Functional. The Empire State Building's 73 elevators can move 600 to 1,400 feet (183 to 427 meters) per minute. At the maximum speed, you can travel from the lobby to the 80th floor in 45 seconds.

  9. www.architectureadrenaline.com › truss-towers-theTruss Towers: The Backbone of Structural Engineering

    May 24, 2023 · A truss tower is a form of structure that uses diagonal members to provide stability and support to the weight of the building. These towers are made up of a series of interconnected triangles, which distribute the weight across the framework.

  10. science.howstuffworks.com › engineering › structuralHow Skyscrapers Work - HowStuffWorks

    Suddenly, it was possible to live and work in colossal towers, hundreds of feet above the ground. In this article, we'll look at the innovations that made these incredible structures possible. We'll examine the main architectural issues involved in keeping skyscrapers up, as well as the design issues involved in making them practical.