Radio Infrared Red Orange Y Yellow Green Blue Indigo Violet UV X-ray Gamma ray.

Slides:

Advertisements

Similar presentations

The Electromagnetic Spectrum

Advertisements

LIGHT and COLOR © 2000 Microsoft Clip Gallery. Albert Einstein.

Hosted by Ms. Magan VocabularyEM Spectrum Light EM & Light

Aim: How can we explain the Electromagnetic Spectrum?

The Electromagnetic Spectrum Rainbows plus a whole lot more.

White Light & Electromagnetic Spectrum. What is Radiation? Energy that is transmitted from one place to another by electromagnetic waves Heat, UV rays.

7.6.a Students know visible light is a small band within a very broad electromagnetic spectrum.

Electromagnetic Waves Spectrum Foldable

WAVES REVIEW & ELECTROMAGNETIC WAVES INTRODUCTION Radio Waves Microwaves Infrared Visible Light (Red, Orange, Yellow, Green, Blue, Indigo & Violet) Ultraviolet.

How do we see colour?. Electromagnetic Energy being transferred by the Sun.

The Electromagnetic Spectrum The electromagnetic spectrum includes a wide range of light waves, some that we can't see. Some of the non-visible types of.

The Electromagnetic Spectrum The electromagnetic spectrum includes a wide range of light waves, some that we can't see. Some of the non-visible types of.

Electromagnetic Waves

Chapter 3 Astronomy TEST REVIEW. WHAT ARE ALL THE FORMS OF ENERGY THAT COME FROM THE SUN? Radio waves Microwaves Infrared Rays (Heat) Visible light Ultraviolet.

Waves of the Electromagnetic Spectrum Magnetic Field Electric Field Producing EM waves Electric field causes magnetic field to vibrate and magnetic field.

The Electromagnetic Spectrum (EMS). Electromagnetic Wave An electromagnetic wave is a transverse wave that carries electrical and magnetic energy. The.

Chapter 22 – The Nature of Light

What is the purpose of a wave?

Telescopes What is the purpose of a telescope? What is the purpose of a telescope? To gather electromagnetic radiation in the form of visible light. It.

Understanding the Spectrum, Reflection, & Refraction Ms. Majewski.

Electromagnetic Waves. Wave Types Electromagnetic waves are transverse waves Can travel through empty space We use 300,000 km/s for the velocity.

Electromagnetic Spectrum

Evidence for the Big Bang?

The Electromagnetic Spectrum A continuous range of oscillating electric and magnetic waves. The energy in an electromagnetic wave increases as the frequency.

Electromagnetic Waves Examples with differing frequencies, wavelengths and energy levels

Light is energy and travels like a wave. Electromagnetic Spectrum All energy on our planet comes from the Sun The Sun emits more types of energy than.

The History of the Electron When we last left the atom, this is how it looked.

 Peak  Trough  Amplitude  Wavelength ( ) (in meters)  Frequency measured in Hertz: (Hz): cycles per second.

Astronomy Chapter 21 page 583 Space Exploration Radiation from Space – the electromagnetic spectrum ( EM spectrum)

Section 2: Electrons in the Atom. Review (NOT ON NOTES)  Atoms are the basic units of matter  Nucleus (center of atom) made up of protons and neutrons.

Electromagnetic Radiation Definition: Characteristics of Waves Wavelength (λ): Frequency (v): Amplitude: Draw and Label the parts of a wave: Other relevant.

Section 2: Waves of the Electromagnetic Spectrum Objectives: list and compare different types of electromagnetic waves describe how the electromagnetic.

The Electromagnetic Spectrum1 Wavelength/frequency/energy.

The Electromagnetic Spectrum1 Wavelength/frequency/energy.

Electromagnetic Waves.  EM waves – waves that DO NOT need a medium to travel through, they can travel through a vacuum (empty space)  Examples of EM.

Electromagnetic Radiation

Electromagnetic Spectrum

Electromagnetic Waves Waves carry energy from one place to another.

Telescopes What is the purpose of a telescope? What is the purpose of a telescope? To gather electromagnetic radiation in the form of visible light. It.

LIGHT. Key Points for today What are E-M Waves? Where does light fit in to all of this? Comparing λ and f for different E-M waves Reading quiz next day.

WHAT HAPPENS WHEN A VIOLET OR RED LASER ARE SHONE AT A LUMINOUS SIGN?

The Properties of Light

Jeopardy Light EM Spectrum Vision Color Light Sources Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

Electromagnetic Spectra. The Electromagnetic Spectrum AM radio Short wave radio Television channels FM radio Radar Microwave Radio Waves Gamma Rays X-

Right AWAY! Please pick up a colored piece of paper from table 4 and bring it back to your table with your lab journal. Next be sure that you have at least.

The Electromagnetic Spectrum. Characteristics of EM Waves All travel at the speed of light, 300,000 km/s – This is possible because EM waves have different.

Sound waves transfer energy through vibrations. Sound Produced by vibrations Mechanical waves Vibrate particles Medium affects sound waves. (p. 42) Temperature.

T HE E LECTROMAGNETI C S PECTRUM. Visible light is a type of wave called electromagnetic waves. Many types of electromagnetic waves make up the electromagnetic.

2A Electromagnetic Spectrum “What’s the Wavelength?” Foldable guided instructions 89.

Ch. 17 ELECTROMAGNETIC SPECTRUM Electromagnetic waves  Are made of changing electric and magnetic fields  EM waves DO NOT need a medium to travel 

The Electromagnetic Spectrum Revealed 1. Feel the sun’s rays Hear your favorite song Get an x-ray at the dentist Make popcorn in the microwave You are.

*Electromagnetic waves are produced by changing the motion of charges or by changing magnetic fields. *Electromagnetic waves can travel through matter,

Chapter 22 – The Nature of Light Section 2 – The Electromagnetic Spectrum pp

The Electromagnetic Spectrum

Electromagnetic Spectrum and Light

Electromagnetic Waves Spectrum Foldable

Introduction to light and the electromagnetic spectrum

Electromagnetic Radiation and Light

Electromagnetic Radiation

Electromagnetic Spectrum

Light & the Electromagnetic Spectrum Notes

Vocabulary Week 6.

The Electromagnetic Spectrum

c =  f E = ℏf Where : ℏ = 6.63 x J٠s velocity -

Energy that can travel directly through space in the form of waves.

12 / 09 Tuesday Kaupapa: Describe the visible light of the electromagnetic spectrum.

Electromagnetic Radiation and Light

Presentation transcript:

Radio Infrared Red Orange Y Yellow Green Blue Indigo Violet UV X-ray Gamma ray

Radio Infrared Red Orange Y Yellow Green Blue Indigo Violet UV X-ray Gamma ray Longest wavelength shortest wavelength

Radio Infrared Red Orange Y Yellow Green Blue Indigo Violet UV X-ray Gamma ray Lowest energy Highest energy

Radio Infrared Red Orange Y Yellow Green Blue Indigo Violet UV X-ray Gamma ray Visible light

R I R OY G B I V UV X G

Practice You will get into groups of 5. Each person will say one light. (radio) Then the next person will say the next one (infrared). Your group will say the entire EM spectrum from the longest wavelength to the shortest in order. If your group is successful you will get a ticket. Drawing for prizes at the end.