Which of the following statements describes a possible way to apply this type of lens? (1 point)
Concave lenses can be used in mirrors to make objects appear closer than they really are.
Concave lenses can be used in microscopes to make microscopic objects visible.
Concave lenses can be used in laser pointers to intersect the projected light to a single point.
Concave lenses can be used in car headlights to expand the projected light outwards.
Concave lenses can be used in microscopes to make microscopic objects visible.
The lens shown in the diagram causes the light rays entering the lens to expand in different directions.Which of the following statements BEST describe an application suitable for the lens shown in the diagram? (1 point)
A telescope that will form a larger image that is easier to see.
Binoculars that will make an image seem closer.
A flashlight that will allow light exiting the flashlight to reach a bigger area.
A movie projector that will break white light into a spectrum of different colors.
A flashlight that will allow light exiting the flashlight to reach a bigger area.
An optometry student must create a mode of a lens. The lens must be able to focus light into a small space. Which statement would best describe the type of lens the student should model?(1 point)
The student should model a convex lens because it brings bands of color together to create white light.
The student should model a concave lens because it brings bands of color together to create white light.
The student should model a convex lens because it directs light toward the center of the lens.
The student should model a concave lens because it directs light toward the middle of the lens.