• Cassa@lemmy.blahaj.zone
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    3 months ago

    Tbh, I want my memes with sources. and this one is strange…

    https://civilizationchronicles.com/roman-engineering-and-mathematics/ claims that mathmatics were essensial to roman engineering.

    whereas this (only abstract avaliable…) https://link.springer.com/chapter/10.1007/978-3-662-66494-0_25 claim that mathmatics were but an auxillary science? 🤔

    nontheless mathmatics seems to have been quite understood and used by the roman engineers building among other things, aqueducts

    • rockSlayer@lemmy.world
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      3 months ago

      The joke is that calculus as a field of mathematics didn’t exist until millennia after the fall of the empire

        • rockSlayer@lemmy.world
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          3 months ago

          Right, I’m not denying that. People have always been smart. The problem that calculus solved was the intensely difficult algebra that it replaced

          • affiliate@lemmy.world
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            3 months ago

            ironically, algebraists are currently trying to replace calculus with more algebra. needless to say, the algebra involved is pretty extreme

    • Tar_Alcaran@sh.itjust.works
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      3 months ago

      Calculus is a specific field of mathematics, mostly to do with limits, integrals and derivatives. Those all feature very heavily in working out loads and stresses.

      But it’s unfair to say the Roman didn’t have calculus. It wasn’t formal calculus, but they absolutely had mathematics, and the Greeks worked out the exhaustion method a century before the Via Appia was even started.

      You don’t need calculus to do some very impressive building, you can go very very far with experience, rules of thumb and basic maths. Hell, ask any civil engineer and they’ll gladly show you some common formula that makes physicists cry.

      • EtherWhack@lemmy.world
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        3 months ago

        Put simply, you don’t need to know of, or what a certain field of math is to be able to apply the different fundamentals of it.

        As an example. You ever see a basketball player bring out a chalkboard to calculate the trajectory, mass, spin, or force to throw the ball to get it in the basket? No. Over time they all eventually create a physics model in their heads and are able to subconsciously calculate all of that with relative accuracy based on experience, training, and practice. Yet, a lot of those players never took a lick of physics.

        • grue@lemmy.world
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          3 months ago

          Hi, civil engineer* here. Nah, fam: a lot of the time we don’t even use formulas; we just look shit up in tables or interpolate on a graph!

          (* To be fair, (a) I specialized in traffic, and (b) I didn’t do all that much professional work as a civil engineer before switching to software “engineering” instead. That’s even less mathematically rigorous most of the time, LOL.)

        • Tar_Alcaran@sh.itjust.works
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          3 months ago

          One of the famous ones is laminar flow in a tube or pipe. There’s a very nice physics formula to compute Reynolds number, and when it’s over 3500, flow is usually turbulent, and below 2000 it’s usually laminar. And anywhere in between? Eh, it kinda depends. Unless there are bends in the tube, then it depends even more. Oh, and when your flow is not in a tube, the values wildly vary even more.

          There’s a concept of “angle of repose”, basically at what slope will loosely poured materials sit. There are super complex modern models to compute that, based on grain size and shape. But there’s also a half-page table listing anything from asphalt to coffee beans, which is literally the law in a lot of countries. That table is older than the age of sail in most cases and zero maths went into it.

          And then there is the hilarious official ways to determine the characteristics of concrete and asphalt. The flow test, for example includes the highly scientific steps of “pour into a specific cone and poke 25 times with a two by four, then measure the circle on the floor”. This number is then used in several calculations.

        • Successful_Try543@feddit.org
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          3 months ago

          Not civil but mechanical engineer here. There are some rule of thumb formulas involved during the construction of a gearbox, e.g. the diameter in mm of a shaft at the bearings: cubic root of the torque in Nm. The ‘necessary volume’ of a gear wheel is another formula involving adventurous math.

    • 5C5C5C@programming.dev
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      3 months ago

      Calculus was invented in the late 1600s, almost 2000 years after the Roman aqueducts were built. The Roman engineer would know some geometry, but certainly not calculus.

      • Maggoty@lemmy.world
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        3 months ago

        That calculus as a modern field wasn’t established until the 1600’s does not mean the Romans only had geometry. That’s not how technology works. It doesn’t fit neatly into containers defined by modern thought. They likely developed what they needed and thought nothing of calling it something else because their purpose for it was different. For example Calculus is often called the study of change, not something the Romans were super interested in. Unlike the Greeks who were figuring out astronomy math. If you want to see how far they were before things started falling apart you’d have to get a historian to tell you what they even considered the mathematical fields to be and look at how they used it.

    • HobbitFoot @thelemmy.club
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      3 months ago

      Romans had a basic understanding of proportions and general vibes of design, but they couldn’t really create calculations to verify their design as we do today. For instance, the designers of the Pantheon understood they needed to lighten the concrete as it went up and had novel techniques of doing so that we use today, but they didn’t really know.

      The state of the art for understanding basic stresses didn’t become known until the 19th century. The design of the Eiffel Tower was impressive, in part, because that structure has a calc book defending it. A lot of early railroad bridges were still designed based on ratios and vibes.

      That said, not all loads were understood by that time. The Tacoma-Narrows Bridge collapsed in part because of a gross misunderstanding of wind loads combined with the ability to design structures light enough that wind loads controlled.