Optics n Optics is the study of how

Optics n Optics is the study of how light behaves. n Explaining how magnification occurs is part of the science of optics. n Diagrams of light use one or more imaginary lines called light rays to show light travels.

Optics A ray diagram is an accurately-drawn sketch showing how light rays interact with mirrors, lenses, and other optical devices. n The curved surface of a magnifying glass bends light so that it appears to come from a much larger thumb.

Reflection and Refraction n. A lens is an optical device that is used to bend light in a specific way. n. A converging lens bends light so that the light rays come together to a point. n. A diverging lens bends light so it spreads light apart instead of coming together.

Reflection and Refraction n Mirrors reflect light and allow us to see ourselves. n. A prism is another optical device that can cause light to change directions. n. A prism is a solid piece of glass with flat polished surfaces.

Light rays n Reflection occurs when light bounces off a surface and when light bends while crossing through materials.

Reflection n Images appear in mirrors because of how light is reflected by mirrors. n The incident ray follows the light falling onto the mirror. n The reflected ray follows the light bouncing off the mirror.

Reflection n In specular reflection each incident ray bounces off in a single direction. n. A surface that is not shiny creates diffuse reflection. n In diffuse reflection, a single ray of light scatters into many directions.

Law of Reflection The incident ray strikes the mirror. The reflected ray bounces off. The angle of incidence equals the angle of reflection.

Refraction n Materials with a higher index of refraction bend light by a large angle. n Refraction occurs when light rays cross a surface between two materials that have a different index of refraction.

Dispersion and prisms n The variation in refractive index with color is called dispersion. n. A rainbow is an example of dispersion in nature. n Tiny rain droplets act as prisms separating the colors in the white light rays from the sun.

Mirrors, Lenses, and Images n Objects are real physical things that give off or reflect light rays. n Images are “pictures” of objects that are formed in space where light rays meet.

Mirrors, Lenses, and Images n The most common image we see every day is our own reflection in a mirror. n The image in a mirror is called a virtual image because the light rays do not actually come together. §The virtual image in a flat mirror is created by the eye and brain.

Virtual images n Because the light rays do not actually meet, a virtual image cannot be projected onto a screen or on film. n Virtual images are illusions created by your eye and brain.

Lenses n An ordinary lens is a polished, transparent disc, usually made of glass. n The shape of a converging lens is described as being “convex” because the surfaces curve outward.

Mirrors, Lenses, and Images n Light rays that enter a converging lens parallel to its axis bend to meet at a point called the focal point. n The distance from the center of the lens to the focal point is called the focal length. n The optical axis usually goes through the center of the lens.

Converging lenses n For a converging lens, the first surface (air to glass) bends light rays toward the normal. n At the second surface (glass to air), the rays bend away from the normal line.

Diverging lenses n. A diverging lens bends the rays outward, away from the focal point.

The image formed by a lens n. A n In converging lens can also form a real image, light rays from the object actually come back together.

Real images n To make an image of any object, a lens collects rays from every point on an object. n Rays from each point on the object are brought back together again to make each point of the image. n Even when you cover half the lens, you still see the whole image.

Magnification n The magnification of an image is the ratio of the size of the image divided by the size of the object. n. A lens with a magnification of 4 creates an image that appears four times larger than the real-life object.

Polarization n The orientation of light is called its polarization. n Only transverse waves can have polarization.

Polarizers n. A polarizer is a material that allows light of only one polarization to pass through it. n Light with a single polarization is called polarized light.

Applications of polarization n Polarized sunglasses reduce glare because they selectively absorb light with horizontal polarization while letting other light through.