Unit 4F: Simple circuits: L.O. 1, 2: N.C. 4.1a

Slides:

Advertisements

Similar presentations

April 2011 Gen Science – Wave Interactions. Reflections of Light Energy Wednesday April 11 th, 2012 Warm-up: 1. Predict what will happen to a beam of.

Advertisements

Laws of Reflection From the Activity you performed, when you shine an incident light ray at a plane mirror, the light is reflected off the mirror and forms.

Light... ORB Education Quality Teaching Resources ORB Education Visit for the full, editable versions with solutions. ScP033.

Light 4th Grade Science.

True or False? 20 questions. Question 1 Sound is a transverse wave.

LIGHT. WHAT IS LIGHT? Light is a form of energy that travels away from the source producing it at a speed of 3 x 10 8 m s -1.

The bouncing off of light as it hits a surface

Light always travels in straight lines. It will NEVER curve.

The Ray Model of Light Lesson 4. Light and Matter Light is represented as straight lines called rays, which show the direction that light travels. Ray.

Bellringer Give the number and unit for the speed at which all Electromagnetic waves travel in both long form and scientific notation.

Flat Mirrors Chapter 14 Section 2. Light and How It Travels  Light traveling through a uniform substance travels in a straight line. Air Water Vacuum.

Light , Characteristics & Light Behaviors

Intro to Ray Diagrams SNC2D Now that we know that every object that we see is due to the light bouncing off of it…our new learning is goal is to understand.

Images on a Plane Mirror

Ray Diagrams & Reflection Images in plane mirrors

Unit 4 Optics: Properties of Light and Reflection

FLAT MIRRORS Chapter 13: Section 2. Learning Targets  Describe how the angle of incidence is related to the angle of reflection  Explain how surface.

What is Light?. Light Look around you. What do you see? You might say books, pencils, desks, chairs. But what you really see is light bouncing off books,

Energy to See By 1.  Alien Attack Website: alienattack.htm 2.

Light OBJECTIVES How light is made and how it travels. How we see things The difference between opaque, transparent and translucent materials.

The Ray Model of Light. Light travels in straight lines: Laser Part 1 – Properties of Light.

THE RAY MODEL OF LIGHT Section 11.4.

Light Activities KS2 Education & Cultural Services Department Ripple Effect (Year 3 to 6) The ripple effect is an idea whereby you create a set of events.

Line Ray Beam the paths along which light energy travels a bundle of light rays.

Light Energy. Light travels in straight lines… until it is reflected (bounced) off of an object…

Principles of light, and the law of reflection What happens when light strikes glass? Or waxed paper? Or a book? If light travels freely through =transparent.

Key Concepts: Light travels in transverse waves Light can be reflected, absorbed, transmitted Parts and functions of the eye.

Chapter 13-2 Flat Mirrors. Conceptual_Physics/3 1_Reflection/01/sp.ht mlhttp://localhost:26300/ Conceptual_Physics/3 1_Reflection/01/sp.ht.

Properties of Reflective Waves Flat Mirrors. Light travels in a straight line Some light is absorbed Some light is redirected – “Reflected”

VOCABULARY Light Unit. Light Context clue: When I turned on the light, I could read the book. Definition: A form of energy that can be seen.

Light & Colour Revision Booklet

A Brief Look at LIGHT.

PW2 - Reflection.  The angle of incidence is equal to the angle of reflection.  The incident ray, reflected ray, and normal all line in the same plane.

10.2 Properties of Light & Reflection. The Behaviour of Light: A reflection is the change in direction of a wave when it reaches the surface and bounces.

Types & Laws of Reflection

Get out a piece of paper and draw draw your answer. Imagine you are looking straight into a flat mirror. In the mirror you see your face from your eyebrows.

The Ray Model of Light. Light and Matter Light is represented as straight lines called rays, which show the direction that light travels. Ray diagrams.

L IGHT E NERGY Unit 4. L IGHT E NERGY Light is a form of energy that can be seen. Light travels at a speed of about 300,000 kilometers per second (186,282.

Light always travel in a STRAIGHT line. A luminous object radiates light in ALL directions.

Opaque Sun Moon Straight line Stars Shadow Opaque 2 Sun 1 Mirror 6 Straight line 5 Stars 4 Shadow.

Reflection D. Crowley, Reflection To know what reflection is, and the law of reflection.

Waves and Their Applications in Technologies for Information Transfer 1-PS4-3 1-PS4-3 Waves and Their Applications in Technologies for Information Transfer.

Properties of Light.

Light and Pinhole Cameras GHB 2005 Pinhole cameras are important because they demonstrate that light travels in straight lines.

Reflection pg. 75. Objectives State and apply the law of reflection. Locate an image created by reflection in a plane (flat) mirror by constructing a.

Reflection S4P1 Students will investigate the nature of light using tools such as mirrors, lenses, and prisms. Investigate the reflection of light using.

Waves Quiz What are the two different types of waves? How are they different? Draw an example of each type. Define: Amplitude Wavelength Frequency.

Unit 6F: How we see things

Ray box and Mirror.

A task setting Powerpoint Pack about mirrors and reflected light

Optics Lesson # 3 The Ray Model of Light.

The Ray Model of Light.

Mirror Reflections and Images

Science 8 – Mirrors and Lenses

The Ray Model of Light.

Reflection & Refraction

The Ray Model of Light Light travels in a straight line Recall

Light and shadows.

Visible light waves.

Date Lesson2: Reflection Lesson Outcomes How I did Targets

Presentation transcript:

Unit 4F: Simple circuits: L.O. 1, 2: N.C. 4.1a Unit 6F: How we see things Unit 4F: Simple circuits: L.O. 1, 2: N.C. 4.1a

Unit 6F: How we see things

Unit 6F: How we see things Unit 6F: Vocabulary Some useful words Opaque Reflect Reflection Light beam Mirror Light travelling A material that light cannot pass through When light ‘bounces’ off a surface in particular shiny surfaces such as mirrors An image viewed in a mirror, for example A thin column of light such as projected by a torch A shiny surface that reflects light Light is always moving Unit 6F: How we see things

Unit 6F: How does light travel? Unit 6F: How does light travel?: L.O. 1, 2: N.C. 4.3a

Unit 6F: How does light travel? Unit 6F: How does light travel?: L.O. 1, 2: N.C. 4.3a

Unit 6F: How do we see things? Unit 6F: How do we see things?: L.O. 3: N.C. 4.3d

Unit 6F: Reflection: L.O. 4, 5: N.C. 4.3c

Unit 6F: Reflection: L.O. 4, 5: N.C. 4.3c

Unit 6F: More reflections When light is reflected it’s direction of travel changes angle i = angle r Unit 6F: More reflections: L.O. 6, 7: N.C. 4.3c

Unit 6F: Shiny and dull surfaces You are going to investigate what types of surfaces reflect light the best, shiny or dull. Test each of the surfaces to record whether it reflects a light beam from a torch and whether you can see yourself in the surface or not. Can you draw any conclusions from your results? Surface Dull or shiny Light reflected from torch I can see my face reflected Mirror Polished metal sheet Sheet of perspex Sheet of paper Piece of polished wood Shiny painted surface Dull painted surface Unit 6F: Shiny and dull surfaces: L.O. 8, 9: N.C. 4.3c

Unit 6F: Shadow Investigation How can we change the size and position of the shadow? Plan how you are going to investigate this? What will you change Unit 6F: Shadow investigation: L.O. 10, 11, 12, 13: N.C. 4.3b

Unit 6F: Shadow Investigation Shadow Investigation – support slide How can we change the size and position of the shadow? What happens to the size of the shadow when you move the figure nearer to the light? What happens to the shadow when you move the figure further from the light? Does moving the screen have the same effect? Does moving the light make a difference? Unit 6F: Shadow investigation: L.O. 10, 11, 12, 13: N.C. 4.3b

Unit 6F: Shadow Investigation Shadow Investigation – extension slide Measure the distance between the figure and the screen and the height to the shadow. Record the results in a table Plot your results on a line graph of Distance between figure and screen vs. height of shadow. Are there any patterns in the results you have? Distance between figure and screen Height of shadow Unit 6F: Shadow investigation: L.O. 10, 11, 12, 13: N.C. 4.3b

Concept Map How we see things Unit 6F: Summary Travels from a source By mirrors In a straight line Object is seen Light Light enters our eyes Reflections Direction of a ray can be indicated by an arrow Direction of beam is changed Shiny surfaces better than dull How we see things Shadows Formed by opaque objects Object nearer light Size can be changed Object nearer surface Unit 6F: Summary: L.O. 14: N.C.