Almost, the 100 mm biconvex lens here is the eyepiece. What I did was the following:
I know the pixel size (3,8 micron). I push an object in its view 0,01 mm. Then I look at the distance it covered. I see that a certain point has moved 80 pixels (or something like that)
That must mean it has moved 80*3,8 micron on the cameralens. However, since the distance is magnified, the real distance is still that 0,01 mm.
So I have this information:
It moved 80*3,8 micron on the image
in reality it moved 0,01 mm
So from that I can find the total magnification. Which was something like 38X. But the magnification of the objective was 63X. That means that the magnification of the eyepiece (the 100 mm lens) must be something around 0,6X.
That is however not really helping for me, because I want to be able to calculate forwards, not backwards if see what I mean