Dow Now What do you already know about light and how it moves?

Slides:



Advertisements
Similar presentations
Reflection and Refraction
Advertisements

L 31 Light and Optics-3 Images formed by mirrors
Unit 33 - Optics Optics is the study of the behavior and properties of light. This includes it’s interactions with objects including mirrors, lenses, and.
Bellringer What color would a basketball appear to be if under an orange flashlight? What color would it appear to be if under a red flashlight?
Light Chapter 19.
By Kristine. An optical device is any technology that uses light. An optical device can be as simple as a mirror, or as complex as the Hubble Space Telescope.
14.
Content Standard 5 – Contrast ways in which light rays are bent by concave and convex lenses.
Chapter 5 The Law of reflection allows mirrors to form images.
Light.
Light Energy & How light interacts with matter
3.6: Mirrors & Lenses 12/15/14. Part 1: Mirrors A.Light is necessary for eyes to see 1.Light waves spread in all directions from a light. 2.The brain.
Chapter 11 Review Mirrors & Lenses. What is an angle of incidence? 2 The angle between an incident ray and the normal of an optical device. Category:
L 33 Light and Optics [3] images formed by mirrors –plane mirrors –curved mirrors Concave (converging) Convex (diverging) Images formed by lenses the human.
Optical Systems Make use of Mirrors and Lenses!.  Sir Isaac Newton – developed the particle model of light- thought that light was made of tiny particles.
Refraction and Lens. Refraction Refraction: the change in direction of a wave as it crosses the boundary b/w 2 media in which a wave travels different.
Lesson 2: Reflection and Mirrors (page 322) Key Questions: – 1. What are the Kinds of Reflection? – 2. What types of Images Do Mirrors Produce? Sunshine.
SPS9 Students will investigate the properties of waves.
Light and Optics Mirrors form images by reflecting light.
Optics.
< BackNext >PreviewMain Section 1 Mirrors and Lenses Rays and the Path of Light Waves Because light waves travel in straight lines, you can use an arrow.
Mirrors and Lenses Chapter 23
Light Chapter 18.
Light Waves Sec 1.
__(B.19): Describe how light is absorbed, refracted, and reflected by different surfaces.
UNIT EIGHT: Waves  Chapter 24 Waves and Sound  Chapter 25 Light and Optics.
Chapter 19 – Optics Jennie L. Borders.
7.6.c Students know light travels in straight lines if the medium it travels through does not change. 7.6.g Students know the angle of reflection of a.
Ch. 2.3 REFLECTION AND REFRACTION. Reflection Reflection occurs when an object or wave bounces back off a surface through which it cannot pass Law of.
Mirrors & Reflection.
LIGHT CH. 18. What is Light? Light is an electromagnetic wave that travels through space requiring no medium.
Now You See It Marion White and Alex Treser Period 8/9 AP Physics 1.
LIGHT.
Slide 1 The Physics of Light Why and how do we see light? Slide 1 The Physics of Light Why and how do we see light?
When light travels from an object to your eye, you see the object. How do you use light to see? 14.1 Mirrors When no light is available to reflect off.
Chapter 23 Properties of Light. Section 1: Objectives Use ray diagrams to show how light is reflected or refracted. Compare plane mirrors, concave mirrors,
Mirrors and Lenses Chapter 14.
Reflection, Refraction, and Absorption Light travels in a straight line. What happens when it hits an object??? It can bounce back (reflect), bend (refract),
Mirrors and Lenses Chapter 23, Section 1. Mirror and Lens Assignment Use p. 668 – 673 in your text Draw the following pictures ◦ Plane mirror ◦ Concave.
Table of Contents Light and Color Reflection and Mirrors
14 Chapter 14: Mirrors and Lenses Unit 3: Energy On the Move Table of Contents : Optical InstrumentsOptical Instruments 14.1: Mirrors 14.2: LensesLenses.
Chapter 14 Sound and Light Energy
Chapter 19. Reflection The smooth surface of the lake reflects light rays so that the observer sees an inverted image of the landscape.
Light Section 1. Light Hits an Object When light strikes an object, the light can be reflected, absorbed, or transmitted.
 A lens is a transparent object with at least one curved side that causes light to refract  Like mirrors, lenses have surfaces that are described as.
It’s amazing!…Can you imagine life without it?
Chapter 20 Mirrors and Lenses
Refraction & Lenses Sections 11.7 and 11.8.
Sound and Light Chapter 4: Light Section 1: Light and Color 3: / 52 = 68.67% 5: / 52 = 82.08% 6: 42.44/52 = 81.62%
Concave and Convex Mirrors and Lenses What do you notice about the letters painted on this emergency vehicle?
Mav Mark What are forms of the electromagnetic spectrum?
Lights, Mirrors, and Lenses Light is another type of wave that carries energy. A light ray is a narrow beam of light that travels in a straight line. Light.
Chapter 19 Light, Mirrors, and Lenses Section 1 Properties of Light Pages
Light Chapter 12 Lesson 3. What is Light? Light is made of these two types of energy. Electric and Magnetic. Light travels as a wave and has a frequency.
Refraction. Refraction of Light When light waves pass from one medium to the next, its speed changes, causing it to bend. Going from lower to higher index.
Light and Optics Part Three: Optics and Reflection.
Chapter 5. Early understanding of light Issac Newton (particle theory of light) – Thought light was made up of tiny particles – Extremely fast moving.
Unit 3 Lesson 3 Mirrors and Lenses
Lesson P4 Part 1 ~ Mirrors & Reflection
DO NOW Sit where your seat normally would be in the room
Mirrors and Reflection
While you are watching the video think about why this is happening.
Light.
Refraction & Lenses Sections 11.7 and 11.8.
Light and Sound.
Chapter Menu Lesson 1: What is light? Lesson 2: Light and Matter
Lesson P4 Part 1 ~ Mirrors & Reflection
LIGHT.
Mirrors and Lenses.
Unit 3 Lesson 3 Mirrors and Lenses
Presentation transcript:

Dow Now What do you already know about light and how it moves?

Essential Question How does light move and change? What are convex and concave mirrors? What is the law of reflection? Properties of Light

Objective Students will learn to predict the direction in which light will refract when it passes from one transparent material to another. Students will learn to apply the law of reflection and law of refraction to demonstrate everyday phenomena Students will learn to determine whether light is reflected, transmitted, and/or absorbed by a given object or material. Properties of Light

Transparent Translucent Opaque Properties of Light Law of reflection Refraction

Light is a form of energy that travels in waves. Light waves spread out as they move away from a source. Light travels in straight lines called rays. How does light travel?

Light waves can carry energy through space and some matter. A light ray will not change direction unless it travels through a different medium or is disturbed in some way. How does light travel? (cont.)

Transparent allowing light to pass through with almost no distortion. Objects look clear and crisp behind transparent material. Ex. Lens in eyeglasses How does light travel? (cont.)

Translucent allowing some light to travel through and blocking some light or bouncing it in a different direction. – Objects appear blurred behind translucent material. – Ex. Stained glass, lampshades How does light travel? (cont.)

Opaque not allowing light to pass through. – Object is not seen behind opaque material. – Casts a shadow when it is in front of a light source. – Ex. Books, walls, glass of milk How does light travel? (cont.)

Law of reflection is a physical law that states that the angle between an incoming light ray and a surface is equal to the angle between the reflected light ray and the same surface. How does light act with mirrors?

Types of Mirrors Any surface that reflects light and forms images is a mirror Plane mirror – has a flat surface. The images appear to be exact copies, though they are reversed. Concave mirror- has a surface that caves/curves inward Convex mirror- has a surface that curves outward – What everyday object has both a concave side and convex side?

Refraction is the change in direction of a wave because of a change in the medium it is traveling through. When light moves into a medium where its speed decreases, the ray bends toward the normal. What is refraction? (cont.)

When light moves into a medium where its speed increases, the ray bends away from the normal. The larger the change in speed of the light wave is, the larger the change in direction is. What is refraction? (cont.)

Types of Lenses A lens that is thicker in the middle than at the edges is a convex lens. A lens that is thicker at the edges than in the middle is a concave lens. Lenses are used to correct vision

Closing Review What key vocabulary did we discuss today? What is the difference between concave and convex? What is the law of reflection and refraction?

Do Now Explain the difference between reflection and refraction? What is a convex mirror? Concave?

Yesterday we learned Light is a form of energy that travels in waves The difference between transparent, translucent, and opaque materials Law of reflection and refraction

Essential Question How does light travel? Explain how light act with mirrors. Explain the difference between the three different types of mirrors. Properties of Light

Objective Students will learn to predict the direction in which light will travel and the direction of reflection.. Properties of Light

How does light travel? Light travels in straight lines (rays). Light can travel through empty space without needing a medium to pass through. Light is affected by the materials it passes through – Transparent – Translucent – Opaque What is the difference between transparent, translucent and opaque?

How does light act with mirrors? Law of reflection: light will reflect at the same angel as the incoming angel Plane mirror

Any surface that reflects light and forms images is a mirror. Dull or rough surfaces do not reflect an image – Plane mirror – has a flat surface. The images appear to be exact copies, though they are reversed. – If you raise your left hand in front of a mirror, what happens to your reflection? How does light act with mirrors? (cont.)

– Concave mirror has a surface that curves inward or away from you ) Light rays are reflected and meet at a point located in front of the mirror dependent on the curve of the mirror. An object placed close to a concave mirror will produce a large image that right-side-up. As you move the object away, the image will become blurry, smaller and eventually appear upside down. How does light act with mirrors? (cont.)

– Concave mirror Common Uses Are used to gather light inside of telescopes. Used in make-up or shaving mirrors – to make the face appear larger and in more detail. How does light act with mirrors? (cont.)

– Convex mirror has a surface that curves outward or towards you. Light rays are reflected from the surface and spread out, producing a wide-angle view. Always produces an image that is right-side-up and much smaller than the object. How does light act with mirrors? (cont.)

– Convex mirror Common Use Useful for security in stores and providing a better view for drivers of vehicles. How does light act with mirrors? (cont.)

Light Optics Video Put your name at the top of the worksheet Complete the worksheet as you watch the video Voices at a level 0

Essential Question Review Quiz Answer the following questions using the knowledge gain in todays lesson. – How does light travel? – Explain how light act with mirrors. – Explain the difference between the three different types of mirrors.

Do Now What type of mirror is used to gather light inside a telescope? (Concave or convex)

Light always travels through empty space at the same speed – 300,000km/s However, light travels slower when it moves through a medium, such as air, glass or water. What is refraction?

Refraction is the change in direction of a wave because of a change in the medium it is traveling through. When light moves into a medium where its speed decreases, the ray bends toward the normal. What is refraction? (cont.)

When light moves into a medium where its speed increases, the ray bends away from the normal. The larger the change in speed of the light wave is, the larger the change in direction is. What is refraction? (cont.)

A lens is a transparent object with at least one curved side that causes light to change direction. Light refracts as it passes through a lens. The greater the curve of the lens, the more the light refracts. What is refraction? (cont.)

A lens that is thicker in the middle than at the edges is a convex lens. A lens that is thicker at the edges than in the middle is a concave lens. What is refraction? (cont.)

A convex lens refracts light inward and it converges. If the object is located between the lens and its focal point, the image is right-side-up and larger than the object. If the object is located beyond the focal point, the image is upside down and smaller than the object. What is refraction? (cont.)

A concave lens refracts light rays apart. It diverges. A concave lens is thinner in the middle than it is at the edges. The image is always right-side-up and smaller than the actual object. What is refraction? (cont.)

Much of what is known about the universe has come from images and other information gathered by telescopes. A telescope is a device that collects light and magnifies images to make distant objects appear closer. Telescopes use mirrors and lenses to gather light. How is light refracted by telescopes and cameras?

Refracting telescopes use two convex lenses to form an image of a distant object. How is light refracted by telescopes and cameras? Light passes through an objective lens that forms an image. The image is then magnified by a lens in the eyepiece.

Reflecting telescopes have a concave mirror instead of a concave objective lens to gather light. How is light refracted by telescopes and cameras? The large concave mirror focuses light onto a secondary mirror that directs it to the eyepiece, which magnifies the image.

Cameras have a lens or a system of lenses that converge light rays toward a sensor. On some cameras, you can zoom, or make the image larger, by moving the lenses, which changes the focal length of the lens and lets you photograph distant and close objects. How is light refracted by telescopes and cameras?

The internal shape of your eyes plays a role in how they function. If your eye shape is even slightly off, your vision will be impaired. How can we correct vision?

A nearsighted person has at least one eye that is longer than normal from front to back. This causes light rays from distant objects to be focused in front of the retina. As a result nearby objects are clear but distant objects look blurry. How can we correct vision? (cont.)

Concave lenses spread the light rays before they reach the eye so the rays travel a longer distance and focus at the correct spot. How can we correct vision? (cont.)

A farsighted person has at least one eye that is shorter than normal from front to back. This causes light rays from nearby objects to be focused in behind the retina. As a result, distant objects are clear but nearby objects look blurry. How can we correct vision? (cont.)

Convex lenses bend the light rays closer together before they reach the eye so the rays are focused properly on the retina. How can we correct vision? (cont.)

Critical Thinking How do sunglasses work to protect your eyes?

Review file:///Users/MrMac/Documents/jppss/FORD/ HFMS/Science%20Resources%20/light/pr operties%20of%20light%20review.webarchive

Do Now List any remaining questions you have about light. Review for test on sound and light