a language is usually built in three layers.
when you provide a program to a language it first has to "read" the program. then it builds what it has read into something it can work with. and finally it runs that thing as "a program" and (hopefully) prints a result.
the problem here is that the first part of python - the part that reads programs - is confused. it's confused because it's not clever enough to know the difference between
what seems to be happening is that it thinks you were trying to type a number like
1.234 but made a mistake and typed letters instead(!).
so this has nothing to do with what
1 "really is" and whether or not is it an object. all that kind of logic happens in the second and third stages i described earlier, when python tries to build and then run the program.
what you've uncovered is just a strange (but interesting!) wrinkle in how python reads programs.
[i'd call it a bug, but it's probably like this for a reason. it turns out that some things are hard for computers to read. python is probably designed so that it's easy (fast) for the computer to read programs. fixing this "bug" would probably make the part of python that reads programs slower or more complicated. so it's probably a trade-off.]