https://zeta.one/viral-math/

I wrote a (very long) blog post about those viral math problems and am looking for feedback, especially from people who are not convinced that the problem is ambiguous.

It’s about a 30min read so thank you in advance if you really take the time to read it, but I think it’s worth it if you joined such discussions in the past, but I’m probably biased because I wrote it :)

  • Flax@feddit.uk
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    11 months ago

    Division comes before Multiplication, doesn’t it? I know BODMAS.

    • Spacehooks@reddthat.com
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      11 months ago

      This actually explains alot. Murica is Pemdas but Canadian used Bodmas so multiply is first in America.

      • ggppjj@lemmy.world
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        11 months ago

        As far as I understand it, they’re given equal weight in the order of operations, it’s just whichever you hit first left to right.

        • Spacehooks@reddthat.com
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          11 months ago

          Yeah 100% was not taught that. Follow the pemdas or fail the test. Division is after Multiply in pemdas.

          I put the equation into excel and get 9 which only makes sense in bodmas.

                • Spacehooks@reddthat.com
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                  8 months ago

                  Well I’m not seeing the difference here. Yn+y= yn+y = y(n+1) = y × (n +1) I think we agree with that.

                  • Ok, that’s a start. In your simple example they are all equal, but they aren’t all the same.

                    yn+y - 2 terms

                    y(n+1) - 1 term

                    y×(n +1) - 2 terms

                    To see the difference, now precede it with a division, like in the original question…

                    1÷yn+y=(1/yn)+y

                    1÷y(n+1)=1/(yn+y)

                    1÷y×(n +1)=(n +1)/y

                    Note that in the last one, compared to the second one, the (n+1) is now in the numerator instead of in the denominator. Welcome to why having the (2+2) in the numerator gives the wrong answer.

        • blind3rdeye@lemm.ee
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          11 months ago

          Ah, but if you use the rules BODMSA (or PEDMSA) then you can follow the letter order strictly, ignoring the equal precedence left-to-right rule, and you still get the correct answer. Therefore clearly we should start teaching BODMSA in primary schools. Or perhaps BFEDMSA. (Brackets, named Functions, Exponentiation, Division, Multiplication, Subtraction, Addition). I’m sure that would remove all confusion and stop all arguments. … Or perhaps we need another letter to clarify whether implicit multiplication with a coefficient and no symbol is different to explicit multiplication… BFEIDMSA or BFEDIMSA. Shall we vote on it?

            • blind3rdeye@lemm.ee
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              9 months ago

              Obviously more letters would make the mnemonic worse, not better. I was making a joke.

              As for the brackets ‘the rules around expanding brackets’ are only meaningful in the assumed context of our order of operations. For example, if we instead all agreed that addition should be before multiplication, then a×(b+c) would “expand” to a×b+c, because the addition is before multiplication anyway and the brackets do nothing.

              • I was making a joke.

                Fair enough, but my point still stands.

                if we instead all agreed that addition should be before multiplication

                …then you would STILL have to do multiplication first. You can’t change Maths by simply agreeing to change it - that’s like saying if we all agree that the Earth is flat then the Earth is flat. Similarly we can’t agree that 1+1=3 now. Maths is used to model the real world - you can’t “agree” to change physics. You can’t add 1 thing to 1 other thing and have 3 things now, no matter how much you might want to “agree” that there is 3, there’s only 2 things. Multiplying is a binary operation, and addition is unary, and you have to do binary operators before unary operators - that is a fact that no amount of “agreeing” can change. 2x3 is actually a contracted form of 2+2+2, which is why it has to be done before addition - you’re in fact exposing the hidden additions before you do the additions.

                the brackets do nothing

                The brackets, by definition, say what to do first. Regardless of any other order of operations rules, you always do brackets first - that is in fact their sole job. They indicate any exceptions to the rules that would apply otherwise. They perform no other function. If you’re going to no longer do brackets first then you would simply not use them at all anymore. And in fact we don’t - when there are redundant brackets, like in (2)(1+2), we simply leave them out, leaving 2(1+2).

                • blind3rdeye@lemm.ee
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                  9 months ago

                  I believe you’re conflating the rules of maths with the notation we use to represent mathematical concepts. We can choose whatever notation we like to mean anything we like. There is absolutely nothing stopping us from choosing to interpret a+b×c as (a+b)×c rather than a+(b×c). We don’t even have to write it like that at all. We could write a,b,c×+. (And sometimes people do write it like that.) Notation is just a way to communicate. It represents the maths, but it is not itself the maths. Some notation is more convenient or more intuitive than others. × before + is a very convenient choice, because it easier to express mathematical truths clearly and concisely - but nevertheless, it is still just a choice.

                  • I believe you’re conflating the rules of maths with the notation we use to represent mathematical concepts.

                    You think a Maths teacher doesn’t know the difference?

                    There is absolutely nothing stopping us from choosing to interpret a+b×c as (a+b)×c

                    Yes there is - the underlying Maths. 2x3 is short for 2+2+2, which is therefore why you have to expand multiplications before doing additions. If you “chose” to interpret 2+3x4 (which we KNOW is equal to 14, because 3x4=3+3+3+3 by definition) as (2+3)x4, you would get 20, which is clearly wrong, since 20 isn’t equal to 14.

                    We don’t even have to write it like that at all

                    No that’s right, because it IS written differently in different languages, but regardless of how you write it, it doesn’t change that 2+3x4=14 - the underlying Maths doesn’t change regardless of how you decide to write it. Maths is literally universal.

                    × before + is a very convenient choice

                    It’s not a choice, it’s a consequence of the fact that x is shorthand for +. i.e. 2x3=2+2+2.

                    it is still just a choice

                    It is a consequence of the definitions of what each operator does. If x is a contraction of +, then we have to expand x before we do +. If it were the other way around then we’d have to do it the other way around. Anything which is a contraction of something else has to be expanded first.