ng2600.blogspot.com — Nishank Gupta

Things in mathematics are equally true. Does this pique your interest? If so, read on.

2 + 2 = 4, is true. So is,
sin(pi) = 0, and even if you consider a property of a random object, or a probabilistic measure, let's say,
Probability of getting a heads upon flipping a fair coin = 0.5
This is true as well.

The strange thing though is that they are equally true. We do not say that the truth of statement 1 in mathematics is more than the truth of statement 2 or so on.

I will not attempt a Tarski and define truth with a circular definition (which is inevitable), but would assume that you and me share the meaning of the word "truth".

For some reason I find this "equality in truth" to be strange and full of wonder at the same time. Do we assume that there exists something true in this world which is a constant and does not change and assign other statements of language this property?

In the realm of both the physical and the mental, certain amount of doubt can be attributed to any statement or observation or thought. I do not know for certain if anything within that set, can be said to be true with certainty. And even if it could be, as they say in language, there are no black and whites but shades of grey. But it is indeed amazing that we can do so much with one truth.

Only a sith deals in absolutes.

On the other hand, any statement is only true under certain assumptions. The truth value of some statements can only be established under certain assumptions - in the sense that the truth value of any statement A can vary between unknown and true or false under different assumptions.But, once a statement is established as true, the truth of a statement made under a stronger assumption is again equally true as the truth of a statement made under a weaker assumption.

There is no such thing as truth. The truth we have outside mathematics has no relationship with the truth in mathematics.


Truth from here on will refer to the truth in mathematical statements.


Making truth binary, has an interesting consequence. You now have the tool of negation. If something is not true then it is false. Normally one would leave the applications and implications to the people who work on the applied side of mathematics, but negation is a powerful tool in mathematics. There couldn't be much of math without it.


So this is how I see things right now, regarding the nature of truth:

Truth in math (calling this X, to avoid confusion) is completely different from the meaning we assign the word "True" linguistically.


X does not exist. We do not even care if it exists. But, X forms the fundamental nature of mathematics. It's more like a definition. And, once we have laid down X, we can now proceed to discuss other statements under this umbrella, with astonishing precision.


Do we lose anything when we lay down X, in the sense that does it make us unable to say a few things, which we could if we did not lay down X - I suspect that is true ( in a general sense), and maybe even inevitable, but laying down X is very powerful!. And without this X you cannot jump from a point in thought or reason to another. It is simply impossible to proceed without any assumptions whatsoever.


Yes, that does seem very close to something what an applied guy would say, but yes, this is exactly how I see things currently. X is a definition, it has no meaning outside it's scope.


Many problems are caused by confusing it (X) with the normal usage of the word "truth".