From small cases to all of them. This is in the spirit of 15 theorem see https://en.wikipedia.org/wiki/15_and_290_theorems
EXAMPLE : Suppose you have the following problem: P(a)
For any fixed non negative integer $a$ define the relation $R_a :\mathbb{N}\times\mathbb{N}\rightarrow \{0,1\} $ as $ R_a(i,j)=1$ if $ i\leq Min(a,j)$ else $0$.
Do we have $ \forall (i,j,k) R_a(i,j).R_a(j,k) <= R_a(i,k)$ ?
You may of course show by hand that $R_a$ is transitive. You may also test it by computer for all quadruples $(a,i,j,k)$ in some TEST_SPACE like [0,10]x[1,1000]x[1,1000]x[1,1000].
If the test is positive I think most people are convinced that P(a) is true for any $a$. Mainly because we use 3 variables(i,j,k) and one parameter (a) , and addition(+) and compare (<=) and Min.
QUESTION: Are there any theorem saying that if the size of TEST_SPACE is at least above a bound function of the formula length,depth,number of variables(...) then truth on TEST_SPACE implies truth everywhere.
a) Assume there are only Min,Max , add , substract , comparison , small constants ,only integers (non negative?) , and a small number of variables ( says < 10).
NOTE1 : I guess some terribly high bound does exist BUT the theorem should be useful that is I don't want triple exponential bound ,( says one exponential at most )
Concrete answers or domain direction will be appreciated.
