Lets say we have add.h add.cpp and main.cpp.
You need the prototype of add in both your main.cpp and add.cpp. main.cpp needs it because it wants to use the class add and add.cpp needs it because it wants to implement it, therefore needing its prototype. This is done as you know by including the header file.
Doing #include "add.h" in both add.cpp and main.cpp.
Now the compiler comes into action creates two object files, namely the main.o and add.o. So still main only knows about add, the internal mechanics (implementation) are still not there. After that the linker combines main.o and add.o into an executable which has all the bells and whistles the run add from main.
After compiling every object file knows by name. After linking they actually know how to call them by name (where he (the implementation) lives.
Before the compiler we have another step which is called pre processing. One of the things which is done in this step is copying the contents of files which are after #include.
No matter how you call add.h it does not matter, but you have to include the correct file in main.cpp and add.cpp. No matter how you call add.cpp or main.cpp it does not matter only your compiler has to be instructed about how they are called. For example in visual studio this is done automatically, by renaming them in your project file. If using gcc you have to instruct your compiler and linker yourself. In this specific situation you do the following.
compile add.cpp into add.o:
gcc -c add.cpp
compile main.cpp into main.cpp:
gcc -c main.cpp
link add.o and main.o into myniceprogram:
gcc -o myniceprogram add.o main.o