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Unit 3 Light and Optical Systems Topic 1 What is Light? Remember to name and date your notes!
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Light is the form of energy you can see. This energy can be produced naturally by the sun or fire, or artificially by light-producing technologies, like batteries.
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Radiation is the wave like transfer of light from its source in all directions. Light is often called radiant energy. Light from the sun is formed by nuclear fusion.
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Less than one millionth of one percent (0.00000001 %) of the sun’s energy actually reaches earth!
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Because sunlight is not always available, we have developed artificial light sources.
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Artificial Light Sources Incandescent – heat causing a metal filament to glow Fluorescent – ultraviolet lights (high-energy) is absorbed by particles and then emitted Phosphorescent – same as fluorescent, but light is emitted over time rather than immediately.
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NATURAL LIGHT SOURCES Sun, Fire (wood), Candles and Oil Lamps Bioluminescence – light produced by living organisms.
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Chemiluminescent – light released by chemical reactions (can be natural or artificial.)
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When light reaches a surface, it can be absorbed and transformed into other types of energy…
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… into electrical energy (solar cells change light into electricity)… into thermal energy (a hot road in summer)… into chemical energy (trees absorb sunlight and make sugars)
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The amount of energy a surface receives depends on the intensity of the light. The more intense the light, the more light can be absorbed. (think of a hot road on a sunny day, versus the temp. of the road on a cloudy day)
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Light travels in straight lines until it strikes a surface. The type of surface will determine how the light will continue.
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If the surface is transparent, the light continues in a straight path through the object If the surface is translucent, the light will be diverted (refracted) after it passes through If the surface is opaque, the light will be blocked and not allowed through the object
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Unit 3 Light and Optical Systems Topic 2 Reflection Remember to name and date your notes!
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Reflection is the process in which light strikes a surface and bounces back off that surface. How it bounces off the surface depends on the Law of Reflection and the type of surface it hits.
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If light hits a rough surface, the light is scattered...
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If it hits a smooth surface, the light reflects at an opposite angle to the angle it hits.
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Light coming from a light source is called an incident ray and the light that bounces off the surface is called a reflected ray.
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A line that is perpendicular (90 degrees with the surface) to the plane mirror is called the normal line.
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The angle between the incident ray and the normal line is called the angle of incidence ( i ). The angle between the reflected ray and the normal line is called the angle of reflection ( r ).
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Mirrors that bulge out are called Convex mirrors. Mirrors that cave in are called Concave mirrors.
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Convex mirrors form images that appear much smaller and farther away than the the object - but they can reflect light from a large area, making them useful as security devices.
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Concave mirrors form an image that appears to be closer than it actually is and can be useful because it can also reflect light from a large area - side mirrors on automobiles.
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Unit 3 Light and Optical Systems Topic 3 Refraction Remember to name and date your notes!
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Refraction is the process in which light is bent, when it travels from one medium to another. Light bends because it changes speed when it moves through materials that have different densities.
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Light travels slower in materials that are more dense, because there are more particles. The bending of light makes the object's image appear to be in a different position than it really is.
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The Law of Refraction when light travels from one medium, to a more dense medium, the light will be bent toward the normal, See Image ‘A’
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and when it exits the denser medium into a less dense medium, it will bend away from the normal. The new direction of light is called the angle of refraction. See Image ‘B’
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Refraction can also occur when light travels through air at different temperatures, because warm air is less dense than cold air. The refraction of light through air is called a mirage.
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When air near the ground warms, the light from objects at a distance is refracted into a curved path. This causes the illusion of a water surface, which is really an image of the sky refracted by warm air near the ground.
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BehaviourWhat happens to light? Nature of surface What else happens? Absorption Changes into some other kind of energy Mostly rough, dark, opaque surfaces Some light is reflected Reflection Bounces off surface, travels in new direction. Best when light hits smooth shiny surface Some light is eventually absorbed Refraction Travels through the surface, into a new direction When light hit a different transparent medium Some light is usually reflected off surface.
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Unit 3 Light and Optical Systems Topic 4 Lenses and Vision Remember to name and date your notes!
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A lens is a curved piece of transparent material (glass/plastic). When light rays pass through it, the light is refracted, causing the rays to bend.
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A double concave lens is thinner and flatter in the middle than the edges.
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Light passing through the thicker more curved areas of the lens will bend more than light passing through the thinner areas, causing the light to spread out or diverge.
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A double concave lens
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A double convex lens is thicker in the middle than around the edges. This causes the light to come together at a focal point, or converge.
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A convex lens refracts the light rays from an object so they can be focused.
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Different size lenses can converge the light rays at different distances, enabling corrections to be made to focal points. Here is the focal point….where light comes together after passing through the lens.
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The lens in the human eye is a convex lens, which focuses the light rays entering your eye to a point on your retina (a light sensitive area at the back of the eye).
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The image you see is formed on the retina.
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Some people however have eyes that are too long or too short. If their eye is too long, the image forms in front of the retina - this is a condition called near-sightedness
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If their eye is too short, the image forms behind the retina, making object that are close to them difficult to see. This condition is called far- sightedness.
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Notice anything odd about this?
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Unit 3 Light and Optical Systems Topic 5 Extending Human Vision Remember to name and date your notes!
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In a refracting telescope, light from a distant object is collected and focused by a convex lens. A second lens, called the eyepiece lens, works as a magnifying glass to enlarge the image.
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(CONVEX)
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A reflecting telescope uses a concave mirror to collect rays of light from a distant object. This mirror forms an image which is then magnified by the eyepiece lens.
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(CONCAVE)
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Binoculars - two reflecting telescopes mounted side by side. In binoculars, the telescopes are shortened by placing prisms inside, which serve as plane mirrors. In this way, the light entering the binoculars can be reflected back and forth inside a short tube.
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Unit 3 Light and Optical Systems Topic 6 The Source of Colors Remember to name and date your notes!
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When white light is refracted into different colors, the resulting pattern is called a spectrum.
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ROY G BIVROY G BIV
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When light strikes an object, it can be absorbed, reflected, or refracted (transmitted). Why is an apple red? Why is celery green? Why is your shirt blue?
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Why does a piece of paper appear white? Why does the ink in a textbook appear black? The white paper reflects all colors, while the black ink absorbs all colors.
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Additive Primary Colors Red Green Blue -all three working in the right amounts will create white.
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Secondary Colors -created when two primary colors are put together Yellow Cyan Magenta
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Rods – detect the presence of light. Cones – detect color. There are three types, each responding to a different color. Red, Green, Blue. Signals from these cells travel through the optic nerve and to the brain where the brain determines shape and color.
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The cone cells in some people’s eyes are unable to detect certain colors. (Ask Mr. Helgren!) This is colorblindness.
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