Lesson 2 Distinguish between transmission, absorption and scattering of radiation. Discuss examples of the transmission, absorption and scattering of EM.

Slides:

Advertisements

Similar presentations

Chapter 16: Weather Factors

Advertisements

2.1 Energy in the Atmosphere

The solar spectrum compared to a black body. Sun ~6000K Sun radiates a lot more energy that the Earth! Earth ~290K Blackbody radiation curves typical.

Radiant Energy Electromagnetic wave, crest, trough, medium,

Energy Ability to do work Many different forms Conservation of energy (Law) Transformed: example: – Radiant to Thermal – Kinetic to Thermal (friction)

WEATHER FACTORS By NICOLE BROOK’S SCIENCE Section1 Science Project 9/27/05.

Lesson Essential Question: How does the sun’s energy affect Earth and the atmosphere? 1.Where do you think the Earth gets most of its energy from?

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

Chapter 16. Weather Factors SECTION 1. ENERGY IN EARTH´S ATMOSPHERE PG. 542.

(Terrestrial) Planetary Atmospheres I.  Atmosphere: ◦ Layer of gas that surrounds a world  Thin for terrestrial planets ◦ 2/3 of air within 10 km of.

Gases in Atmospheres Volatiles in Molecular Form (ice or gas): –Carbon dioxide CO 2 (molecular weight = 44) –Oxygen O 2 (molecular weight = 32) –Nitrogen.

Energy interactions in the atmosphere

_____ Which of the following is not a greenhouse gas? a. methane (CH 4 ) b. water (H 2 O) c. oxygen (O 2 ) d. carbon dioxide (CO 2 )

ATS Lecture 2 Energy & Radiation Surface Maps.

Chapter 2: Weather Factors

Solar Energy and the Atmosphere

The Nature of Electromagnetic Waves and Light Sources.

Chapter E16 Electromagnetic Waves. An Electric Field in Empty Space Empty space is a medium for electric waves Suppose an electric field suddenly appears.

 Not in things themselves  Provoked by the frequencies of light emitted or reflected by things.

Remote Sensing Energy Interactions with Earth Systems.

B19-Describe how light is absorbed, reflected, and refracted by different surfaces.

Weather Factors Chapter 16.

The Greenhouse Effect A large majority of the insolation that is radiated back into the atmosphere gets absorbed by greenhouse gases. A large majority.

Electromagnetic Spectrum. The electromagnetic spectrum covers a wide range of wavelengths and photon energies.

Understanding the Greenhouse Effect Sara Kalinowski and Ellen Cercena.

Final Problem EQ6: Is Light a wave?. Light is a form of radiation. It is the transfer of energy from place to place without the need of a medium. For.

Welcome Back Write down the 4 layers of the atmosphere (in order) and 1 fact about each.

Ch Solar Energy and the Atmosphere

Energy in the Atmosphere

Energy Balance Chapter 18.

Energy in the Atmosphere Shannon, Isabella, Raige.

Topic 6. Without energy from the sun, conditions on Earth would be different. What is the energy that is radiated from the Sun? The energy that is radiated.

Solar Energy Heat and Light. Energy Can take many different forms –____________ –Heat –____________.

Do Now: In notebook: Fold down a page and start the next unit 2B. - Get colored pencils: - Red - Orange - Yellow - Green - Blue - Violet.

Wave Interactions and Behaviors

Energy in the atmosphere Emmie Landry, Arianna Hancock, Lexis Dodd, and Christy Thammavongsa.

The Greenhouse Effect - Atomic level By Kaelin O’Hare.

ATOMS - he nucleus is surrounded by orbiting electrons.

Electromagnetic Radiation: Interactions in the Atmosphere.

Chapter 22 Section 2 Handout

Energy in the Atmosphere Chapter 16 Section 1 Pages Chapter 16 Section 1 Pages

Light Waves Interacting with Matter

Chapter 16 : Weather Factors Section1 : Energy in the Atmosphere By : Katelyn Angers.

Section 1.3 Gases in the atmosphere absorb radiation.

Electromagnetic Radiation. What is light? Wave theory Light travels in waves Is reflects off objects It can pass through other light Particles would bounce.

23.2 Solar Radiation & the Atmosphere Electromagnetic Radiation The EM spectrum Radiation is energy that does no require matter to travel. It travels as.

Question 1 What has the highest energy photons? A) gamma B) micro waves C) radio waves D) light.

Copyright © Houghton Mifflin Harcourt Publishing Company Unit 3 Lesson 1 The Electromagnetic Spectrum.

Energy from the Sun Radiation is the transfer of energy by electromagnetic waves. Ninety-nine percent of the radiation from the Sun consists of visible.

3.1 Heat Transfer in the Atmosphere

Reduce Activity: Read the paragraph below and highlight 6 keywords.

Light waves interact with materials

Electromagnetic Waves

Origin of The Electromagnetic (EM) Waves

Energy in the Earth’s Atmosphere

What is INSOLATION? A Science Sisters Production 2017.

6th Grade – Sound and Light (Mod. J) – Unit 3 Lessons 1 & 2

Unit 3 Notes Part 4: Greenhouse Effect

Gases in the Atmosphere absorb Radiation

Earth's atmosphere reflects or absorbs some sunlight but allows most of the visible light pass through to Earth's surface. 4 ways the atmosphere affects.

Light Ch 27.1 – 27.3 & 28.1 – 28.2 & 28.8 – 28.9.

17.2 Heating the Atmosphere.

Introduction and Basic Concepts

Journal #25 What is a greenhouse? What is the greenhouse effect?

Radiation Energy from the sun

LO: What is Insolation? Do Now: In your notes write what you think Insolation is. Grab Plicker cards.

Warm Up Why is the sky blue?.

Earth's atmosphere reflects or absorbs some sunlight but allows most of the visible light pass through to Earth's surface. Atmosphere affects light in.

Energy in the Earth’s Atmosphere

Energy in the Earth’s Atmosphere

Presentation transcript:

Lesson 2 Distinguish between transmission, absorption and scattering of radiation. Discuss examples of the transmission, absorption and scattering of EM radiation (Students should study the effect of the Earth’s atmosphere on incident EM radiation. This will lead to simple explanations for the blue colour of the sky, red sunsets or sunrises, the effect of the ozone layers, and the effect of increased CO2 in the atmosphere).

Scattering of light

Scattering The electric field of EM radiation passing through any medium will force electric charges (electrons) in the medium to vibrate (and thus absorb the light’s energy). These oscillating charges then radiate EM radiation in all directions at the same frequency. This is called scattering.

Blue light is scattered more than red light, so if you look into the sky away from the source of light (the sun) the short wavelengths have been scattered by the atmosphere so it appears blue. In the absence of an atmosphere the sky would appear black. Scattering in the atmosphere

The sun is low in the atmosphere, so the light that reaches you is the unscattered light (red!) Red sunset

Let’s try to reproduce that!

Absorption

If the energy of the photons in EM radiation matches the difference in energy between energy levels in molecules of matter, the energy will be absorbed

Absorption – Greenhouse gases As we discussed in topic 8, greenhouse gases such as CH 4, CO 2 and H 2 O have energy levels that differ by amounts comparable to infrared photon energies. These means infrared gets absorbed by these gases leading to the greenhouse effect.

Absorbed Various gases in the atmosphere can absorb radiation at infrared wavelengths (resonance) C O O C H H H H They vibrate more (become hotter) HH O

Greenhouse gases These gases are known as “Greenhouse” gases. They include carbon dioxide, methane, water and N 2 O. C O O C H H H H HH O

Absorption - Ozone Ozone, O 3, in the atmosphere absorbs ultraviolet light from the sun in a similar fashion.

Transmission Whe EM radiation is incident on the boundary between two media. Some is reflected and some refracted (i.e. transmitted) into the second medium.

Reflection, absorption and transmission

Homework Read chapter G1