I think you are confused by the difference between the reference to the String object and the String object itself.
When you say
String myString = "Hello";
the runtime creates an object in memory "Hello." You can't directly mess with the way this object is stored because Java manages memory. But you still need to be able to make use of that object, so the reference myString lets you do that in an indirect way.
When you make calls on myString with the . operator like these:
You are using your reference to get some information about that string, but you never touch the string itself.
Now it gets a little tricky. If you do this next:
myString = "Later";
The runtime creates a new object in memory "Later," and myString points to that now instead. "Hello" is still sitting in memory, but you have no way to get information from it anymore. Eventually, Java will figure that out and clean it up so you get that memory back for other things. This shows the reference can point to anything, and those things can change all the time.
Now let's say I want to change the string itself like this:
myString = myString + ", dude.";
It looks like you are modifying myString to add more stuff to it, but you actually aren't. You have the original object in memory ("Later"), and the runtime creates a second object in memory (", dude."). Then the runtime creates a third object that represents the combination of the two: "Later, dude."
If Strings were mutable (like StringBuffer and StringBuilder), you could have one object and just keep changing it. But they are not, so every time you think you're just modifying it, you are creating new ones. This can lead to a lot of wasted memory and then a decline in performance when the runtime tries to get it all back.
So it is about the difference between reference and object.
Hope that helps.