A convex and concave lens are nested together as seen in the figure above. Three parallel beams of light of three different colors, are incident on the first lens. What would happen to the outgoing rays of light if you spread these two lenses apart? Noting that the convex lens is the leading lens. O a. The outgoing rays are going to be diffracted at different angles depending on the index of refraction of each color of light. O b. The outgoing rays of light would undergo convergence into a single point located along the principal axis, since the leading lens is a converging one. O c. The outgoing rays would remain parallel to each other, however, the separation between them is now narrower. O d. The outgoing rays would remain parallel to each other, however, the separation between them is now wider. O e. The outgoing rays of light would undergo divergence since the 2nd lens is a diverging one.

A convex and concave lens are nested together as seen in the figure above. Three parallel beams of light of three different colors, are incident on the first lens. What would happen to the outgoing rays of light if you spread these two lenses apart? Noting that the convex lens is the leading lens. O a. The outgoing rays are going to be diffracted at different angles depending on the index of refraction of each color of light. O b. The outgoing rays of light would undergo convergence into a single point located along the principal axis, since the leading lens is a converging one. O c. The outgoing rays would remain parallel to each other, however, the separation between them is now narrower. O d. The outgoing rays would remain parallel to each other, however, the separation between them is now wider. O e. The outgoing rays of light would undergo divergence since the 2nd lens is a diverging one.