Sort the materials into three piles

Slides:

Advertisements

Similar presentations

Learning Goals: Define wavelength, frequency, period, and amplitude. Describe the relationship between frequency and wavelength. Explain how a wave’s energy.

Advertisements

WAVES A wave is a rhythmic disturbance that TRANSFERS ENERGY.

Waves and the Electromagnetic Spectrum

Transparent objects allow you to see clearly through them

Waves Lesson 2: Pgs

Ch Characteristics of Waves

Characteristics of Waves Chapter 9 S8P4a. Identify the characteristics of electromagnetic and mechanical waves. S8P4d. Describe how the behavior of waves.

Chapter 15.2 – Characteristics of Waves amplitude – the maximum distance that the particles of a wave’s medium vibrate from their rest position -in a transverse.

Waves Introduction Chapter 10 Section 1 and 2 Physics Standard 4.

Wave Properties Students will be able to Explain wave structure Contrast transverse and longitudinal waves Describe properties of a wave.

STUDY GUIDE Wave Properties, Interactions, and Sound Waves

Ko Te Marama Objectives of the Unit At the end of the unit I should be able to… Objectives of the Unit At the end of the unit I should be able to… Light.

WSL JEOPARDY Waves Sound Light Surprise

Waves What are waves?????.

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.

Unit Organizer Template Physics Unit – Unit Organizer.

DEFINITION OF A WAVE A wave is a transfer of energy from one point to another: Waves can exist in many forms, but the ones we will be covering are sound.

Waves Unit 1: Lessons 1-2. What are waves? A wave is a disturbance that transfers energy from one place to another A medium is the material through which.

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

Energy Changes: Lesson 2 Properties of Light

Unit # 4 CDA Review Light and Sound.

Transverse Waves and Lights

Lesson 2: Sound Energy.

Good Vibrations Slow Motion:

Electromagnetic Waves: Mediums

Describing transverse waves and the wave equation

Sound and Light.

Describe the relationship between the frequency and wavelength.

Waves, Sound, and Light MENU

Waves Objective: I can describe the difference between mechanical waves and electromagnetic waves.

Light Interactions The law of reflection states that the angle of incidence is equal to the angle of reflection. Things that are luminous can be seen because.

Week 5 Light waves.

Wave parts Wave speed Sound Light Electro- magnetic Suprise

Lesson 7 Notes Modeling Light.

Some you can see, some you can feel, some you can hear!

Section 2: Wave Properties

Notes 2: Wave Properties

Properties of Waves Energy in Motion!!!.

1.When waves travel through a medium, WHAT do they transfer between the two points? ENERGY.

Wave Interactions.

Chapter 20 The Energy of Waves.

Describing transverse waves and the wave equation

Wave Properties & Interactions

Wave Properties Learning Goals:

Lesson Starter Explain why the pencil appears to bend in water?

Warm Up A pendulum with a length of 36.9 cm has a period of 1.22 sec. What is the gravitational field at the pendulum’s location? 9.78 m/s/s.

Electromagnetic Waves: Mediums

EXT: Explain why a show is produced in both pictures.

Properties of Waves & Interactions

1.) What forms mechanical waves?

Light can be reflected, absorbed or transmitted by objects

How fast does sound travel through a solid, liquid and gas?

Unit: Sound and Light Lesson 2: Properties of Waves

Electromagnetic Waves: Mediums

How fast does sound travel through a solid, liquid and gas?

Light Light is a form of energy Energy has the ability to do work

Review of waves.

Light Light is a form of energy

Chapter 20 The Energy of Waves.

Lets review what we have learned…..

Do the Wave! Please Pass the Energy Parts of a Wave Light On! Did You Hear That? Name that Wave! $100 $100 $100 $100 $100 $100 $200 $200 $200 $200 $200.

Transparent objects allow you to see clearly through them

Light and Shadows.

What are waves?.

Presentation transcript:

Sort the materials into three piles Why have you sorted them this way?

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works

Optical Properties of Materials Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works Optical Properties of Materials Transparent material lets almost all the light pass through. Translucent material only allows some of the light through. Opaque material does not allow light to pass through.

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works

Light travels as a transverse wave. Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works Light Light travels as a transverse wave. Amplitude Crest Trough Unlike sound, light waves do not need particles to travel

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works Light travels at a speed of 300 000 000 m/s faster than anything else in the Universe. Explain why we see lightning before we hear thunder. EXTENSION What is a light year? Why do we say astronomers are studying the past?

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works Why do shadows form?

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works Light rays cannot bend around or travel through opaque objects Shadows will be longer if the object is closer to the light source

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works YOUR TASK Use the available equipment to build a pinhole camera Draw a ray diagram in your notes to show how the image is formed

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works The Pinhole Camera

- how a pinhole camera works Learning Objectives By the end of this lesson you should… Understand the terms transparent, translucent and opaque Be able to describe how light travels Be able to construct ray diagrams to show: - how shadows form - how a pinhole camera works Light or sound waves? Travel faster than anything else in the Universe Travel faster in solids Are carried by vibrating particles Transfer energy from one place to another Cannot bend around corners