Suppose we have a lens setup where an object is placed at the 10 cm mark on a meter stick (imagine that this meter stick is sideways laying across the length of a table). We then place a positive, or convex, lens at the 63 cm mark. The focal length of this lens is 19.5 cm. Finally, we then place a negative, or concave, lens at the 53 cm mark. We then observe that there is a real image projected onto our screen, which is at the 97 cm point. a) Draw the lens diagram including both lenses, positions of the object and image distances, as well as any rays of light that you might think are relevant in analyzing the problem.

Suppose we have a lens setup where an object is placed at the 10 cm mark on a meter stick (imagine that this meter stick is sideways laying across the length of a table). We then place a positive, or convex, lens at the 63 cm mark. The focal length of this lens is 19.5 cm. Finally, we then place a negative, or concave, lens at the 53 cm mark. We then observe that there is a real image projected onto our screen, which is at the 97 cm point. a) Draw the lens diagram including both lenses, positions of the object and image distances, as well as any rays of light that you might think are relevant in analyzing the problem.