That's not how infinite works.
There are infinitely many numbers between 10 and 11, slowly getting more and more precise from 10.5 to 10.55 to 10.555 and so on.
None of the infinitely many numbers between 10 and 11 are 12 or 9.
It is entirely possible that such a sequence appears and it's entirely possible that infinite such sequences appear but it's not guaranteed by the number being infinite.
Now in the example I gave you can be 100% sure any given sequence appears in between 10 and 11 because it's an infinite set of rational numbers and you could theoretically go and find infinite example of any given sequence because it's structured correctly for that. It has the type of structure to facilitate that and you know 100% that in at 3 digits of precision behind the point that 10.002 comes right after 10.001. You know for 100% sure that there is an a number between 10 and 11 that is 10.694206942069420.... because of how the infinite set is structured. Pi is not so structured.
There are infinitely many numbers between 10 and 11, slowly getting more and more precise from 10.5 to 10.55 to 10.555 and so on.
None of the infinitely many numbers between 10 and 11 are 12 or 9.
It is entirely possible that such a sequence appears and it's entirely possible that infinite such sequences appear but it's not guaranteed by the number being infinite.
Now in the example I gave you can be 100% sure any given sequence appears in between 10 and 11 because it's an infinite set of rational numbers and you could theoretically go and find infinite example of any given sequence because it's structured correctly for that. It has the type of structure to facilitate that and you know 100% that in at 3 digits of precision behind the point that 10.002 comes right after 10.001. You know for 100% sure that there is an a number between 10 and 11 that is 10.694206942069420.... because of how the infinite set is structured. Pi is not so structured.