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Is π wrong?

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    Is π wrong?

    BBC News - 'Tau day' marked by opponents of maths constant pi

    More in depth argument here.

    At first the author gives examples of mathematical simplifications that result with the use of a 2*pi (6.28...) symbol, and as I read (not for the first time) I'm wondering whether similar treaties involving the symbols D (2* radius) or one for double length radian (based on diameter in that case) might offer similar arguments for compactness and intuitiveness, and I'm wondering, with some scepticism, whether the diameter of the circle is more fundamental than the radius as the author appears to be suggesting. Or at least he says PI is half of 'something'. But the clincher for me is where it's made clear that it's because the ancients didn't see radius as fundamental that we have the present value of pi. They divided the circumference of a circle by its diameter rather than its radius to get PI. D'oh! And because of this diameter looks fundamental today (all those 2pi's you see in trigonometric formulas and elsewhere).

    I think he's right. Radius is more fundamental and the ancients screwed up. Shame on you Euclid!
    12
    Yes, the ancients were cretins
    25.00%
    3
    No, π is just fine as it is thanks
    50.00%
    6
    AndyW ate all the PIs
    25.00%
    3

    #2
    Remember, folks, you read it here first

    Nice to see it's made the Beeb - it's clearly a matter of some significance

    Comment


      #3
      If he cared about the area of a circle he was right though.

      diameter =2Πr
      area=Πr squared
      volume of a sphere = 3/4 Πr cubed.

      Sometimes a bit of forward thinking can save a world of pain.
      Last edited by eek; 28 June 2011, 12:33.
      merely at clientco for the entertainment

      Comment


        #4
        Originally posted by NickFitz View Post
        Remember, folks, you read it here first

        Nice to see it's made the Beeb - it's clearly a matter of some significance
        Oops, I didn't notice you'd mentioned it there!

        Comment


          #5
          Originally posted by eek View Post
          If he cared about the area of a circle he was right though.

          diameter =2Πr
          area=Πr squared
          volume of a sphere = 3/4 Πr cubed.

          Sometimes a bit of forward thinking can save a world of pain.
          circumference

          It's all as daft as a brush IMHO, like arguing whether sine or cosine is more "fundamental". (If anything cosine is, by a nose.)

          But it's six of one and half a dozen of the other - Suppressing extra constants in one place would cause them to pop up somewhere else, like the difference between CGS and MKS units.)
          Work in the public sector? Read the IR35 FAQ here

          Comment


            #6
            Originally posted by OwlHoot View Post
            circumference

            It's all as daft as a brush IMHO, like arguing whether sine or cosine is more "fundamental". (If anything cosine is, by a nose.)

            But it's six of one and half a dozen of the other - Suppressing extra constants in one place would cause them to pop up somewhere else, like the difference between CGS and MKS units.)
            WHS - basically a bunch of numpties trying to make a name for themselves...
            Do what thou wilt

            Comment


              #7
              A Greek who worked for old Ptolemy
              Had half a pie in his laboratory
              It's circumference was bent
              by a Euclidian dent
              made by his spoon. If you follow me



              (\__/)
              (>'.'<)
              ("")("") Born to Drink. Forced to Work

              Comment


                #8
                Originally posted by OwlHoot View Post
                circumference

                It's all as daft as a brush IMHO, like arguing whether sine or cosine is more "fundamental". (If anything cosine is, by a nose.)

                But it's six of one and half a dozen of the other - Suppressing extra constants in one place would cause them to pop up somewhere else, like the difference between CGS and MKS units.)
                Sure, it doesn't add new mathematics or physics, but it makes formulas less unwieldy if you don't carry around constants, and more intuitive, when based on simpler axioms. Most of the other trigonometric quantities are based on radius (e.g. radians), so it makes sense that PI should be too. Currently it's a mixture. Just as you could base physical constants on quantities that are less fundamental, it's doable, and even advantageous sometimes, but usually the simplest fundamental quantities make better axioms. Consistency is good too!

                Comment


                  #9
                  Originally posted by TimberWolf View Post
                  Oops, I didn't notice you'd mentioned it there!
                  Well, it was nearly a year ago

                  Comment


                    #10
                    Originally posted by eek View Post
                    If he cared about the area of a circle he was right though.

                    diameter =2Πr
                    area=Πr squared
                    volume of a sphere = 3/4 Πr cubed.

                    Sometimes a bit of forward thinking can save a world of pain.
                    The area formula does stand out as becoming less compact with a 2pi constant, (PI . r^2 versus (Tau . r^2 )/ 2), but the latter presentation does convey something quite interesting and fundamental about the area of a circle. This being that it's equal to the area of a triangle whose sides are the circle's circumference and radius, which is (Tau . r^ 2) / 2. Again with radius as a fundamental unit.

                    The author makes a fairly good case for the area formulation being superior, if not shorter.

                    Volume would be 2/3 tau. r^3, so not much to choose between the two there, on the surface.

                    Comment

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