MIMTY 4/5/11 A lot of scientific articles in newspapers have bias. What is bias and why do you think it’s bad? MIMTY.

Slides:

Advertisements

Similar presentations

Optics Curved Mirror Real or Virtual 1. A real image is formed by the intersection of light rays from a pint of the object. 2. The term ‘virtual” is.

Advertisements

Real or Virtual? Real images A real image is one which can be produced on a screen and is formed by rays that converge. Imaginary images A virtual image.

PHY504 Midyear Practice Exam Questions

Chapter 15 Pretest Light and Refraction

Refraction & Lenses Physics 1161: Lecture 17

Optics The light ray model A light ray is a line in the direction that light energy flows. My laser beam for example, is really a bundle of many parallel.

Flat Lens (Window) n1n1 n2n2 Incident ray is displaced, but its direction is not changed. tt 11 11 If  1 is not large, and if t is small, the.

Optics 光學 1. Reflection of Light.

19.1 Mirrors The smooth surface of the lake reflects light rays so that the observer sees an inverted image of the landscape.

The Refraction of Light The speed of light is different in different materials. We define the index of refraction, n, of a material to be the ratio of.

Welcome to Optics JEOPARDY PHysics Final Jeopardy Question Reflection Mirrors 100 Lens refraction Special topics.

Optics Can you believe what you see?. Optics Reflection: Light is retransmitted from or “bounces off” an object.

18.2 Reflection and Mirrors

TopicSlidesMinutes 1 Displacement Vectors Kinematics Graphs Energy Power Springs Shadows 39 9 Field of.

Converging lenses Diverging Lenses The Lens Equation We can make use of the fact that changing the focal length and position of the object we can change.

Physics Optics: Plane Mirrors Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund Department.

S-95 Explain how a curved mirror, and a curved lens are different. Think in terms of image formation and in terms of what light photons do.

KEYWORDS: refraction, angle of incidence, Angle of refraction, refractive index KEYWORDS: refraction, angle of incidence, Angle of refraction, refractive.

Reflection in Plane Mirrors Objectives: Investigate reflection in plane mirrors Verify the “1st Law of Reflection” Compare image location to object and.

A. can be focused on a screen. B. can be projected on a wall.

Conceptual Physics: pp ; Chapter 30.  Refraction-The bending of a wave as it enters a new medium  Medium-The material the wave travels through.

Jeopardy Vocabulary 1 Vocabulary 2 ReflectionRefraction Optical Tools Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

Ray Model A useful model under certain circumstances to explain image formation. Ray Model: Light travels in straight-line paths, called rays, in ALL.

Chapter 19 – Optics Jennie L. Borders.

Chapter 23 Light. Chapter Ray Model of Light Light travels in straight lines Ray model of light - light travels in straight line paths called.

Mirrors & Reflection.

Reflection in Plane Mirrors Objectives: Investigate reflection in plane mirrors Verify the “1st Law of Reflection” Compare image location to object and.

Reflection Regular reflection occurs when parallel light rays strike a smooth surface and reflect in the same direction. Diffuse reflection occurs when.

Science Olympiad Optics Color and Shadows Optics.

Ch 23 1 Chapter 23 Light: Geometric Optics © 2006, B.J. Lieb Some figures electronically reproduced by permission of Pearson Education, Inc., Upper Saddle.

Refraction and Lenses.

1. How is the index of refraction calculated? How is light refracted as it speeds up? How is light refracted as it slows down? Index of refraction = speed.

Unit 5, Chapter 15 Integrated Science. Unit Five: Light and Optics 15.1 Seeing an Image 15.2 The Human Eye 15.3 Optical Technology Chapter 15 Optics.

Copyright © 2010 McGraw-Hill Ryerson Ltd. What is the law of reflection? How do mirrors form images? Topic4.4 (Pages )

Textbook sections 26-3 – 26-5, 26-8 Physics 1161: Lecture 17 Reflection & Refraction.

Sec  Review of Law: the angle of reflection is equal to the angle of incidence  We use ray diagrams to show how light rays change direction when.

LIGHT Principles of Physics. It is impossible to see the actual wave shape (crests and troughs, etc) of a light wave Instead we draw straight lines, called.

Light & Optics. Law of Reflection The angle of incidence of reflected light equals the angle of reflection.  r =  I Note that angles are measured relative.

Is the velocity of the wave shown above. For reflection of light, we have the situation shown in Figure 1. The two plane mirrors in Figure 2 are at 90.

Dispersion The spreading of light into its color components is called dispersion. When light enters a prism, the refracted ray is bent towards the normal,

M Manser WAVES : Optics (t riple science) By the end of this presentation you should be able to: Identify the differences between converging and diverging.

 Mirrors that are formed from a section of a sphere.  Convex: The reflection takes place on the outer surface of the spherical shape  Concave: The.

Ray Model A useful model under certain circumstances to explain image formation. Ray Model: Light travels in straight-line paths, called rays, in ALL.

Ray Optics Reflection Science Olympiad

Light: Geometric Optics. The Ray Model of Light The ray model of light assumes that light travels in straight-line path called rays.

MIMTY 4/4/11 How would your life change if there were no lenses or mirrors? MIMTY.

Chapter 14 Preview Objectives Refraction of Light

Table of Contents Reflection and Mirrors 9.2 Ms. De Los Rios 7 th Grade Waves and Light.

Image Formed by a Flat Mirror Consider rays from an object, O, a distance p in front of the mirror. They reflect, with angle of reflection = angle of incidence.

Light and Mirrors Part II MIRRORS 1. Polarized Sunglasses- How do they work? light waves vibrate in more than one plane light waves can be made to vibrate.

Refraction and Lenses. Refraction is the bending of light as it moves from one medium to a medium with a different optical density. This bending occurs.

Basics Reflection Mirrors Plane mirrors Spherical mirrors Concave mirrors Convex mirrors Refraction Lenses Concave lenses Convex lenses.

M Manser WAVES : Optics (t riple science) By the end of this presentation you should be able to: Identify the differences between converging and diverging.

Concave & Convex Reflection. What is Concave/vex Concave refers to a surface that is indented Convex refers to a surface that is bowed out You can have.

Light will refract (change direction) upon entering a new substance. If the new substance is more optically dense, the light will bend toward the normal.

Reflection vs. Refraction Refraction zRefraction of Light: Bend or change direction z1. As light rays enter a new medium the cause light to bend z2.

Speed of light In a vacuum, light travels at a speed of 3 x 10 8 m/s. In any other medium, such as air, water, glass, etc., light travels slower. MaterialSpeed.

Refraction. Reflection When light reflects from smooth surface you can see an image. The image: - is _______ the object. (smaller than, the same size.

As regards the formation of an image by an optical system such as a plane mirror, what will serve as an object? a) An emitter of light, such as, a candle.

Notes 23.3: Lenses and Images

Images formed by Mirrors

Free-Response-Questions

Unit Physical Science Systems

Light Reflection – the “bouncing” of light off of a surface. The light does not pass through the surface (called a medium), Refraction – is the “bending.

Presentation transcript:

MIMTY 4/5/11 A lot of scientific articles in newspapers have bias. What is bias and why do you think it’s bad? MIMTY

Summarizing Notes notes Take the next 5 minutes and do the following: 1) Summarize your notes from yesterday in a paragraph. 2) Create 3 questions you could ask about these notes. Your questions should use verbs from the following parts of your verb sheet: - 1 question using “knowledge” or “comprehension” - 1 question using “application” or “analysis” - 1 question using “evaluation” or “synthesis”  1 more question using “synthesis”

Reflection and Refraction Review Which diagram below shows the proper path that light will take? A)B) C)D) E) none of the above

Reflection and Refraction Review How many real mirrors are there in this room? After clicking in, write down how you know. A) 0 B) 1 C) 2 D) 3 E) 4

Reflection and Refraction Review Below is a fiber optic cable. Light is shined into one end and comes out the other. What principle allows these to work? A) Incidence B) Reflection C) Refraction D) Imaging E) Focal Point

Reflection and Refraction Review What kind of image does the projector make on a drive in theater? A) Imaginary B) Object C) Virtual D) Optical E) Real

Reflection and Refraction Review Which image below shows the proper way of drawing a ray trace diagram? A)B) C)D) E) none of the above

Reflection and Refraction Practice Problems 1)A beam of incident light hits a mirror at an angle of °. What is the angle of the reflected light? 2) A butterfly at eve level is 20 cm in front of a mirror. You are behind the butterfly, 50 cm from the mirror. What is the distance between you and the image of the butterfly? 3) Suppose you walk toward a mirror at 2 m/s. How fast do you and your image approach each other? (the answer is not 2!) 4)The flashlight will only illuminate one of the cards shown at right. Determine which one. 5)Copy and complete the ray diagram shown to the right.  A few slides ago, we saw a picture of a room with mirrors that seemed to go on forever. The light bulb in the room doesn’t produce infinite light, so how does it let us see infinite images?  Semi trucks often have signs on their bumpers that read “If you can’t see my mirrors, I can’t see you.” Explain the physics behind why this is true. classwork

Exit Question #28 How do glasses work to correct vision? a) They gather more light into the eye. b) They allow less light into the eye. c) They bend the focal point so it hits the back of the eye. d) They bend the focal point so it hits the front of the eye e) They spread the light so it hits across the whole eye. f) None of the above.