Both C and C++ let you write to arbitrary areas of memory. This is because they originally derived from (and are still used for) low-level programming where you may legitimately want to write to a memory mapped peripheral, or similar, and because it's more efficient to omit bounds checking when the programmer already knows the value will be within (eg. for a loop 0 to N over an array, he/she knows 0 and N are within the bounds, so checking each intermediate value is superfluous).
However, in truth, nowadays you rarely want to do that. If you use the arr[i] syntax, you essentially always want to write to the array declared in arr, and never do anything else. But you still can if you want to.
If you do write to arbitrary memory (as you do in this case) either it will be part of your program, and it will change some other critical data without you knowing (either now, or later when you make a change to the code and have forgotten what you were doing); or it will write to memory not allocated to your program and the OS will shut it down to prevent worse problems.
- Many compilers will spot it if you make an obvious mistake like this one
- There are tools which will test if your program writes to unallocated memory
- You can and should use std::vector instead, which is there for the 99% of the time you want bounds checking. (Check whether you're using at() or  to access it)