The essence of this problem lies in how language designers chose to partition up the tasks that a language needs to perform, and assign those to different constructs.
In Java, the standard array type has a fixed length, because it's intended to be a low-level, bare-bones implementation, that the developer can build on top of.
In contrast, if you want a more fully featured array, check out the
ArrayList<> class. The idea is to give you, the developer, a wide range of choices for your tools, so you can always pick something appropriate for the job.
When talking about arrays, the machinery necessary to allow for variable-length arrays is nontrivial. So the creators of Java chose to put this functionality in the
ArrayList<> class, rather than making it mandatory overhead for anyone who just wants a simple array.
Why is lengthening an array nontrivial? Computer memory is finite, so we have to store objects next to each other. When you want to lengthen your array, what if there's already another object in the nearby memory addresses?
In this case, there isn't enough space to lengthen the array in-place, so one has to move data around to make room. Usually this is done by finding an larger, empty block of memory, and copying the array over while lengthening it. The mathematics of how to do this in the best way possible (e.g. how much empty space to leave?) are interesting and nontrivial.
ArrayList<> abstracts this process for you, so you don't have to handle it yourself, and you can be confident that the designers of the
ArrayList<> class chose an implementation that will perform well (on average) for your application.