LOCATING IMAGES IN CONVEX MIRRORS USING RAY DIAGRAMS Grade 10 Science – Optics Unit Cardinal Ambrozic C.S.S.

Slides:

Advertisements

Similar presentations

Learning Outcome Draw a ray diagram to find the position, nature and size of the image produced by a concave and convex mirrors.

Advertisements

Reflection w/ curved mirrors

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.

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.

Plane Mirrors Flat mirror that is most common. The image we see in a mirror is called a virtual image. [

TODAY WE WILL... Practice how to draw the images in convex mirrors. Complete activity 4.10 “Trends in Images in Convex Mirrors”. SUCCESS CRITERIA - You.

J.M. Gabrielse Convex Mirrors (curved out) Light rays that come in parallel to the principal axis reflect from the focal point. principal axis F The focal.

4.4 – CONVEX MIRRORS p. 318 – 320. HOW ARE CONVEX MIRRORS DIFFERENT FROM CONCAVE ONES?  Both mirrors are curved  Convex is shaped so the middle of the.

Curved Mirrors. Curved Mirror Terminology Like plane mirrors, curved mirrors still follow the law of reflection, but, because of their curvature, the.

Light & Reflection Quiz Review

Chapter 13: Section 3. Learning Targets Describe the difference between a real and a virtual image Draw ray diagrams for objects located at various distances.

10.4 Images in Convex Mirrors Copyright © 2010 McGraw-Hill Ryerson Ltd. Convex mirrors are mirrors with reflective surfaces that bulge or curve outwards.

Convex Mirrors. 2 Convex Mirror F and C are behind mirror.

Textbook Reference 10.4 (P ). Convex Mirrors A mirror with a surface curved outward is a convex mirror, also called a diverging mirror A convex.

Reflection and Mirrors Chapter 23 Lesson 2 Notes.

Mirrors Ch. 20. Mirrors Mirror – any smooth object that reflects light to form an image.

REFLECTION Ray Diagram for Mirror Image & applications of reflection.

CH 14: MIRRORS & LENSES 14.1: Mirrors. I. Plane Mirrors  Flat, smooth mirror  Creates a virtual image: an image your brain perceives even though no.

An object in front of a curved mirror gives off light in all different directions. Most miss the mirror so don’t make an image. Many, many, many light.

11.9 Images in Curved Mirrors

What is an image? Light changes its path after reflection or refraction. Thus when we see something, we may not seeing the REAL thing at its true location.

Convex Mirrors LG: I can describe the uses on convex mirrors and draw ray diagrams involving convex mirrors.

Grade 10 Science – Optics Unit Cardinal Ambrozic C.S.S.

18.2 Reflection and Mirrors

Curved Mirrors Part 2 - Convex Mirrors. Review: Reflections in a Plane Mirror.

Curved Mirrors Sections 11.5 & 11.6.

Optics Lesson 4 Reflection In Curved Mirrors

Textbook sections 26-3 & 26-4 Physics 1161: Lecture 21 Curved Mirrors.

Spherical Mirrors Alfano I: Year 4.

There are some mirrors that distort the reflected image. Cosmetic mirrors magnify things, and other mirrors make things look smaller.

Grade 10 Applied Science – Curved Mirrors

Ray Diagrams for spherical mirrors. Finding the focal point Center of Curvature (C)- if the mirror actually was a sphere, this is the center of that sphere.

Light: Geometric Optics Chapter Ray Model of Light Light travels in a straight line so a ray model is used to show what is happening to the light.

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

(c) McGraw Hill Ryerson Using Mirrors to Form Images All mirrors reflect light according to the law of reflection. A flat smooth mirror is called.

Mirror – a shiny object that reflects light instead of letting the light go through.

The King David High School Science Department Drawing Curved Mirror Ray Diagrams By Mr Jones.

11.6 Using Curved Mirrors Text pages

LIGHT AND COLOUR Spot the mistake Angle of incidence = angle of reflection.

Curved Mirrors (Two Kinds) C: Centre of Curvature (2F) V: Vertex PA: Principal Axis F: Focal Point f : focal length (Distance FV)

Chapter 7 Light and Geometric Optics

Predicting Images in Convex and Concave Lenses. When the object is located at twice the focal length (2F)

Normal Line Incident RayReflected Ray

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.

Plane Mirror: a mirror with a flat surface

Locating images in a Plane Mirror object mirror Image of object S - Same size as object A - upright L - behind mirror T - virtual reflected incident.

Principal axis FCC Image Characteristics Real Inverted f < d i < 2f h i < h o Any incident ray parallel to the principal axis will reflect through the.

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

4.4 – CONVEX MIRRORS p. 318 – 320. HOW ARE CONVEX MIRRORS DIFFERENT FROM CONCAVE ONES?  Both mirrors are curved  Convex is shaped so the middle of the.

4.4 Images in a Plane Mirror. Images in Plane Mirrors When you place an object in front of a mirror the light rays reflect off the object and some will.

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

MIRRORS. ACTUAL light path APPARENT light path OBJECTIMAGE: same size, equal distance behind normal 1. PLANE (FLAT) MIRROR VIEWER Law of Reflection: equal.

RAY DIAGRAMS FOR MIRRORS

Reflection In your books sketch the set up putting the labels in the correct place Mirror Incident ray Angle of reflection Angle of incidence Reflected.

5.2 Using Mirrors to Form Images

Reflection in Curved Mirrors

Images in a Curved Mirror

How to locate the image in a diverging (convex) mirror

Images in Curved Mirrors

Images in Curved Mirrors

Convex Mirrors.

Mirrors 3 – CONVEX Mirrors

Lenses A lens is a transparent material (with at least one curved side) that causes light refracts in a predictable and useful way. Each ray is refracted.

5.2 Using Mirrors to Form Images

Mirrors 3 – CONVEX Mirrors

Cases Object is greater than 2 focal lengths from the mirror (d0>2f) Object is between 1 and 2 focal lengths from the mirror (f

Lens Cases CONVERGING 2f f f’ 2f’ – object beyond 2f

Presentation transcript:

LOCATING IMAGES IN CONVEX MIRRORS USING RAY DIAGRAMS Grade 10 Science – Optics Unit Cardinal Ambrozic C.S.S.

S Smaller A Upright L Behind the Mirror T Virtual RAY DIAGRAM #1 CF V PA Convex Mirror Do our reflected rays meet anywhere, so that we can draw our image? What can we do? FRONTBACK

Applications of Convex Mirrors Security Mirror This is a type of mirror used in some stores that allow a clerk to see a wide area (to prevent shoplifting)

Applications of Convex Mirrors Side-View Mirror Drivers can see the image of objects behind the car Objects in this mirror are closer than they appear