Introduction to Light. What is light ? Light is electromagnetic radiation of a specific wavelength and frequency that is detectable by the human eye.

Slides:

Advertisements

Similar presentations

Consider the Following ??

Advertisements

Ch. 14 Science Vocabulary Preview. compression A compression is the party of the sound wave where the particles are bunched together.

Waves are an important part of the Earth, and not just in the water.

Waves S8P4. Students will explore the wave nature of sound and electromagnetic radiation. a. Identify the characteristics of electromagnetic and mechanical.

1. Place 5 marbles along the groove in the ruler as shown on your handout. 2. Now take a 6 th marble and flick it against the end of the row. 3. Draw.

Radiant Energy Electromagnetic wave, crest, trough, medium,

Jeopardy ELECTROMAGNE TIC SPECTRUM WAVESSOUND LIGHT MIX UP Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

Electromagnetic Spectrum. Waves are everywhere! Wave – Disturbance that moves through space – Takes energy/information and moves it from one location.

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.

Introduction to Light IN THIS LECTURE –Light –Electromagnetic Radiation –Wave Nomenclature –Electromagnetic Spectrum –Speed of Light –Wave front and wave.

Electromagnetic Spectrum and Light Review. I can identify different regions on the electromagnetic scale including radio waves, infrared rays, visible.

16-1 Energy in Earth’s Atmosphere. (pages 542–545) 1

Waves 7th Grade Science.

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,

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

What is Light? Fill in the blanks on the handout. Anything written like this must go on your handout.

Waves – from GCSE What you need to know before you move into AS waves.

What is Light? Write down anything that looks like this! This includes titles too!

10.2 Properties of Light and Reflection. Reflection  When light (electromagnetic waves) hits a surface its direction is changed  This change in direction.

Introduction to Optics. 1. The Great Debate 2. What is light? 3. Properties of light 4. The wave-like model 5. Theories of colour.

Waves Waves as energy Types of waves What exactly is a wave? Definition: A wave is any disturbance that transmits energy through matter or space Waves.

 Students will be able to define electromagnetic radiation.  Students will be able to explain how telescopes work.  Students will be able to describe.

Principles of Earth and Physical Science Mr. Taylor Rainier Jr/Sr High School.

Reflection and Light Flat Mirrors.

Waves Waves as energy Waves as energy Types of waves Types of waves Parts of a wave Parts of a wave Movement of waves Movement of waves Properties of.

Unit – K3 Refraction 25th of May 2007 Form Group 8_y.

Standards and Vocab Waves. Standards Students will explore the wave nature of sound and electromagnetic radiation. a. Identify the characteristics of.

WAVES Essential Questions:  What is a wave?  How do waves travel?  What are the types of waves?  What are the properties of waves?  What are 4 types.

What is a wave? Wave – a disturbance or oscillation that travels from one place to another.

WAVES, SOUND, AND LIGHT Students will explore the wave nature of sound and electromagnetic radiation.

Waves Waves as energy Waves as energy Types of waves Types of waves Parts of a wave Parts of a wave Movement of waves Movement of waves Properties of.

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.

Light: reflection and refraction Lesson 2. Law of reflection Angle of reflection Angle of incidence The angle of incidence = the angle of reflection.

This screen will disappear in 3 minutes. Seconds Remaining. Draw a diagram of a wave.

Wave Properties. S8P4. Students will explore the wave nature of sound and electromagnetic radiation. d. Describe how the behavior of waves is affected.

Journal #22 What is the purpose of a barometer? What is the most commonly used barometer?

Topic 5 Reflection of Light Light has particle characteristics and behaves like waves. It is a member of the electromagnetic spectrum.

What are Waves? Waves are an important part of the Earth, and they’re not just in the water!

1 Unit 2: Electrons in the Atom. 2 The Beginnings of Quantum Mechanics Quantum mechanics forms the foundation of chemistry – explaining the periodic table.

Waves and Radiation W Richards Worthing High School.

Light and the EM Spectrum The terms light, radiation, and electromagnetic wave can all be used to explain the same concept Light comes in many forms and.

Chapter 1: Nature of light. waveparticle Wave-particle duality However strange, it correctly describes known phenomena connected with light. E = h.

Wave properties. What are transverse waves? When the surface of this lake is disturbed, waves spread out across the surface of the water. Water waves.

7 Properties of light pg. 69.

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

M. Manser (2014). Module P1:  Refraction of light M. Manser Sackville School.

Wave Definition: A disturbance that transfers energy from place to place. A medium, a medium is the material through which a wave travels. A medium can.

Waves Waves as energy Waves as energy Types of waves Types of waves Parts of a wave Parts of a wave Movement of waves Movement of waves Properties of.

Light Continued. The light models explain how we… See ____________ See ______________ in objects ______ see around corners See ________ distant objects.

Light & Sound. S8P4. Students will explore the wave nature of sound and electromagnetic radiation. a.Identify the characteristics of electromagnetic and.

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

WAVES Essential Questions:

Radiation What is radiation?

Wave Parts WAVES.

Week 5 Light waves.

Motion and Energy Light.

General Properties of waves

The Electromagnetic Spectrum

S1 Science Physics topic

Wave Characteristics.

Introduction to Light.

WAVES Essential Questions:

Electromagnetic Radiation

Electromagnetic Radiation Mind Maps DUE TODAY!

Presentation transcript:

Introduction to Light

What is light ?

Light is electromagnetic radiation of a specific wavelength and frequency that is detectable by the human eye.

What is a wavelength?

A wavelength is the distance between the points where a wave repeats itself.

Electromagnetic radiation, Light wave.

Wavelength

Light has a wavelength of between 380 and 740 Nanometres. That’s cm and cm A human hair is approximately cm thick

That means, you will need over 18,000 wavelengths of light to make one centimetre or 140 wavelengths to cross a single hair.

What is frequency ?

Frequency is the number of wavelengths that pass in a unit of time, which in this case is one second. We call this unit of measurement Hertz.

1 Second Hertz (9 wavelengths per second) Frequency

1 Second Hertz (9 wavelengths per second) Frequency Hertz (4 wavelengths per second)

What is amplitude ?

Amplitude is the height of the wave.

Amplitude

Physics has a great deal of trouble explaining the intensity or strength of light using waves. This is where the deal theory of light as a particle takes effect. The intensity of light is easily explained but considering a larger number of photons being produced and reaching your eye creates a “brighter” sensation.

Different substances such as air or water, block different wavelengths and frequencies of electromagnetic radiation.

Air and it’s effect on solar radiation. Surface of the Earth Height. Image: Courtesy NASA/JPL-Caltech

How do we draw light in science diagrams?

Light travels in a straight path, so we represent it using a single line or ray, with an arrow at the end showing the direction the light is travelling.

Light on earth can be reflected or refracted but cannot be curved or bent. Reflection

Light on earth can be reflected or refracted but cannot be curved or bent. Refraction

Light on earth can be reflected or refracted but cannot be curved or bent.

Whenever you are drawing a light ray, use your ruler to make sure your line is straight.

Now it’s your turn to draw some light rays from a source to an eye.