Section 3: Reflection and Color

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Presentation transcript:

Section 3: Reflection and Color Preview Key Ideas Bellringer Reflection of Light The Law of Reflection Mirrors Seeing Colors

Key Ideas How do objects interact with incoming light? How can you see an image in a mirror? Why do we see colors?

Bellringer 1. A car mirror on the passenger-side door often has a sign that reads “Objects in mirror are closer than they appear.” Why do objects in the mirror seem farther away than they actually are? 2. Light is reflected off of paper. Why can’t you see your reflection in a piece of paper? 3. a. Name the 3 additive primary colors. b. Name the 3 subtractive primary colors. c. What do you see when there is an absence of color?

Reflection of Light How do objects interact with incoming light? Every object reflects some light and absorbs some light. Light can be modeled as a ray. light ray: a line in space that matches the direction of the flow of radiant energy The direction of the light ray is the same as the direction of wave travel or as the path of photons.

Reflection of Light, continued Light rays are used to describe reflection and refraction. geometrical optics: the study of light in cases in which light behaves like a ray ray diagrams: geometrical drawings that use light rays to trace the path of light

Reflection of Light, continued Rough surfaces reflect light rays in many directions. diffuse reflection: the reflection of light in random directions Smooth surfaces refleclight rays in one direction. Figure 19 A and B, p. 507

Reflection of Light, continued law of reflection: the angle of incidence equals the angle of reflection angle of reflection: the angle of the light rays reflecting off a surface angle of incidence: the angle of the light rays striking the surface

The Law of Reflection Figure 20, p. 507 When light hits a smooth surface, the angle of incidence () equals the angle of reflection ( ′).

Visual Concept: Law of Reflection Click the button below to watch the Visual Concept.

Mirrors How can you see an image in a mirror? Mirrors reflect light as described by the law of reflection, and this light reaches your eyes. The type of image you perceive depends on the type of mirror.

Mirrors, continued Flat mirrors form virtual images by reflection. virtual image: an image from which the light rays appear to diverge, even though they are not actually focused there; a virtual image cannot be projected on a screen

Visual Concept: Comparing Real and Virtual Images Click the button below to watch the Visual Concept.

Mirrors, continued Curved mirrors can distort images. Because the surface is not flat, the line perpendicular to the normal points in different directions for different parts of the mirror. convex mirrors: mirrors that bulge out concave mirrors: indented mirrors

Mirrors, continued Concave mirrors can create real images. Concave mirrors are used to focus reflected light. A virtual image may form behind a concave mirror. A real image may form in front of a concave mirror. real image: an image that is formed by the intersection of light rays; a real image can be projected on screen Light rays exist at the point where the real image appears.

Visual Concept: Comparing Concave, Convex and Plane Mirrors Click the icon to play the audio

Seeing Colors Why do we see colors? The colors that you perceive depend on the wavelengths of visible light that reach your eyes. Objects have the color of the wavelengths they reflect. White light from the sun actually contains light from the visible wavelengths of the electromagnetic spectrum.

Seeing Colors, continued Mixtures of colors produce other colors. Colors may add or subtract to produce other colors. additive primary colors: red, green, and blue Mixing light of the three additive primary colors makes white light. subtractive primary colors: yellow, cyan, and magenta If filters or pigments of all three colors are combined in equal proportions, all visible light is absorbed. Black is the absence of color.

Visual Concept: Additive Color Mixing Click the button below to watch the Visual Concept.

Visual Concept: Subtractive Color Mixing Click the button below to watch the Visual Concept.