Jump to content

Recommended Posts

Posted

I guess theoretically you could account for everything, using whatever terms you like best.

 

Regarding things in Binary is no different that regarding them in 100 Monkey Points, it's just that binary is easier to work with.

 

Although physically you'd need more than just a "one-or-the-other" system, as the universe is far more complicated.

 

Quarks, Electrons, Photons, Bosons, etc...

Posted

Just like in our own number system, it is hard to account for certain numbers in binary (for instance we find representing 1/3 hard in decimal/denary (0.3333 recurring, ie you can't actually represent it accurately)). I would imagine a third itself is very hard to represent in binary accurately (in either floating point or fixed point binary).

 

Saying this I'm sure you could find a way of interpretting bits to let it represent various constants and variables given certain bits set or given certain formats (such as ASCII etc) so... I suppose anythings possible but whether or not it would be practical or reasonable is another matter :P

Posted

One of the more interesting problems is that if your goal is to represent an analog entity in a digital (binary) fashion, you're more or less stuck with one approach -- sampling. The accuracy of a digital sample of an analog event or entity is dependent upon the frequency with which you sample. So long as your threshold of detection is below the frequency rate of the sample, you don't (in theory) have a problem. But perception is a funny thing, and this always seems to be a compromise.

 

Since your sampling frequency could never in theory equate to a 1:1 relationship of analog to digital data, the answer to the original question of this thread would seem to be "no".

 

But perhaps someone who knows more about sampling and its inherent problems can give an answer.

Posted
You know, this is really a yes/no kind of a subject. I mean, the answer is pretty black-and-white, wouldn't you say?

 

nice. You're kinda on, but off.

 

No, I don't think you could describe the world in binary.

I would think, because of the digital vs. analog properties.

Posted

Since your sampling frequency could never in theory equate to a 1:1 relationship of analog to digital data' date=' the answer to the original question of this thread would seem to be "no".

[/quote']

 

Why not? At some level everything is discreet. I think we could represent anything digitally, we'd probably just have to go down to the Planck scale. So I say in theoretically yes but practically no.

Posted

Well, the obvious question is: why would you want to? I can't see any practical application of representing everything in binary. I guess we just need to know why semag68 wanted to know in the first place.

Posted

My answer to your question is incomplete(i.e the fact that '"everything" has not yet been described by any mathematical model), but whatever can be described with a decimal system can obviously be described by a system of another base.

  • 2 weeks later...
Posted

Everything can be described in binary theoretically? I say no.

 

What about particles of spin 1/2 :P ? Theres no way to express a half in binary unless you use an operator on it, which is in fact NOT expressing it in binary, but as an equation.

Posted
unless you use an operator on it, which is in fact NOT expressing it in binary, but as an equation.
Separating terms by an operator creates an expression, not an equation.
Posted
1/2 is expressed as 0.1 in binary.

 

It can't be. If it is a binary system, then everything MUST be a one OR a zero, if something is to be less than one and more than zero then that is an invalid state.

  • 1 month later...
Posted

the world is analog, not even the binary 1s and 0s in a computer are true, there are never two 1`s or 0s the same, it`s No voltage or A voltage, but take the decimal places of A voltage to the N`th degree, and no 2 "Voltages" will be the same.

so although we can represent a "False" or Approximation of Binary, a computer is Still basicly 100% analogue, the Binary is the Virtual part :)

Posted

Yeah. I see no reason why not. If everything is truly discrete at some level, then even binary represented only by approximate voltages should be good enough. It would only be a representation, obviously, but theoretically it could still be a 100% accurate one.

Posted

and what if the discrete properties are above 2 in type?

 

BINARY is the Illusion here, it only works in concept or with heavy "Filtering" of the real to distingiush parameters that fit into either 1 of 2 catagories.

the real world is Not Naturaly like this at Any KNOWN level, not even day and night :)

Posted

If there are more than 2 types of discrete properties to represent, it'll just take more code to represent it. Binary could still be used for this.

 

Yeah, the result isn't going to be the real world, but I still see no reason why, theoretically, it couldn't be a perfectly accurate representation of it, when the right equipment is used to read the binary.

 

Although, chances are, by the time such a thing could be done even for an incredibly small part of reality, there'd be less clumsy ways to do it than binary.

Posted

Numbers are numbers what ever be the base.In decimal its base ten so every integer between 0-9 is multiplied to powers of ten according to the value one wants to describe be it form 0 to 9 or more. The base 2 case is treated similarly.

Because there are only two discrete elements in this number system it has bee chosen in digital systems to indicate the 0 by a ground and a 1 by a high.

This is how we have chosen to represent the number line to a comp.

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.