• alcoholicorn@lemmy.ml
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    18 days ago

    It’s a continuous process, think of a conveyor belt. If the conveyor belt is 3 feet long or 3 miles long, the rate you can put things on it is the same.

      • alcoholicorn@lemmy.ml
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        18 days ago

        Yes, that has nothing to do with the time the items have to sit on the conveyerbelt. This is a process that takes 3600x less time, not one with 3600x more throughput.

        If they put 1 ton of iron ore in the furnace over a period of 1 hour, even if the iron is at the bottom of the furnace within seconds instead of hours, it doesn’t enable them to add iron ore at a faster rate.

        • ☆ Yσɠƚԋσʂ ☆@lemmy.mlOP
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          18 days ago

          Your made up scenario has absolutely nothing to do with how the process actually works though. You literally just made a straw man here. The reality is that the iron has to sit in the furnace for less time, and that means you can put more iron through the furnace of a particular size than you could otherwise. This really shouldn’t be a hard concept to grasp, yet here we are.

        • Tomorrow_Farewell [any, they/them]@hexbear.net
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          18 days ago

          If they put 1 ton of iron ore in the furnace over a period of 1 hour, even if the iron is at the bottom of the furnace within seconds instead of hours, it doesn’t enable them to add iron ore at a faster rate

          Cool. So, now they get to put several times more of the iron. I wonder if your argument is going to be ‘but they will hit another bottleneck, then’.