I'd like to see the numbers for this board.

Ah well. They start with the quiet meditation movements of Tai Chi (although some debate this), and include things like Judo and Kyudo (archery), none of which are really about "hard" contact. Much less prone to injury than e.g. soccer. ;Dbeyond infinity wrote: hmmm... martial arts ... *ouch*auw*wham* ... Not really A Walk In The Park(tm) they are.
Beyond this, reading (esp. enjoying Dan Simmons and -of course- JRR. Tolkien) and drawing are my two main hobbies ... Not forgetting c00king aswell (mixing spices and tastes altogether produce the same kind of "i'm freely creating" as c0ding do, for me"Music was my First Love, and it will be my last"
There is?!Solar wrote: Take care, all of you, and never forget there's a life beyond the keyboard.
Trancendental numbers? At least not accurately. For example, you can't express pi digitally (i.e. using numerical digits); it just goes on and on.Is there any information that can't be represented digitally?
Technically, any continuous data can only be approximated by a discrete media. For example, while digital audio recording can reproduce sound with much greater precision than any analog reproduction, analog will always have a theoretical advantage in that it can (in principle) duplicate the entire waveform, while digital sound has to use high-speed waveform sampling, and inevitably clips frequencies greater than twice the sampling rate (IIRC).Tim Robinson wrote:Trancendental numbers? At least not accurately. For example, you can't express pi digitally (i.e. using numerical digits); it just goes on and on.Is there any information that can't be represented digitally?
Maybe you can't store the actual value of PI, but you can certainly store the equation by which PI is found. Since the equation describes PI exactly, and you can store the equation exactly, you can provide an exact substitute for PI. So you can in fact store an exact representation of the value of PI. Which is all sophistry anyhowTim Robinson wrote: Trancendental numbers? At least not accurately. For example, you can't express pi digitally (i.e. using numerical digits); it just goes on and on.