Chapter 16: Weather Factors

Slides:

Advertisements

Similar presentations

MODULE #1: Climate Change & Global Warming

Advertisements

ENERGY FROM THE SUN.

2.1 Energy in the Atmosphere

Chapter 22 Section 2 Review Page 560

Chapter 2 Weather Factors

Chapter 22 Section 2 Review Page 560 #’s 1-9

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?

The atmosphere S6E4a: Demonstrate that land and water absorb and lose heat at different rates and explain the resulting effects on weather patterns.

Chapter 7 Section 4 Energy in Earth’s Atmosphere

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

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

the Natural Greenhouse Effect

Chapter 2: Weather Factors

Solar Energy and the Atmosphere

The Atmosphere B3: Weather Factors Part 1 – Energy in the Atmosphere.

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.

Energy in the Atmosphere

Weather Factors Chapter 16.

CHAPTER 14 Energy in the Atmosphere Section 1, pages

WHY IS THE SKY BLUE?. RADIATION Radiation is the direct transfer of energy by electromagnetic waves. Infrared radiation has wavelengths that are longer.

Chapter 10, Section 2 Chapter 22, Section 2. Solar Energy Key Terms: Create a flashcard for each. The words can be found starting on page 555 or use the.

Ch Solar Energy and the Atmosphere

Table of Contents The Air Around You Air Pressure Layers of the Atmosphere Energy in Earth’s Atmosphere Heat Transfer Winds The Atmosphere.

The Role of Solar Energy (Earth’s Energy Budget) SOL 6.3.

The Atmosphere: Energy Transfer & Properties Weather Unit Science 10.

Energy in the Atmosphere

Sun Controls Earth’s Climate System Earth has a global climate system that includes air, land, liquid water, ice, and living things.climate system The.

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 –____________.

Heat Transfer in the Atmosphere Essential Question: How is heat transferred in the atmosphere?

The Atmosphere Preview Section 2 Atmospheric Heating Concept Mapping.

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

Unit: Weather Pt. 1 – Energy in Earth’s Atmosphere 4c. Examine weather forecasting and describe how meteorologists use atmospheric features and technology.

Energy Transfer In the atmosphere.

GEOG 1112: Weather and Climate Global Energy System Sept 11, 2014.

Chapter 22 Section 2 Handout

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

EARTH’S ENERGY. Energy from the Sun Nearly all of Earth’s atmosphere energy comes from the sun as electromagnetic waves. Most of the energy comes from.

Solar Energy and the Atmosphere

Table of Contents Energy in Earth’s Atmosphere Ms. De Los Rios Science 6 th Grade Climate Interactions.

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

Chapter 4 Atmosphere and Surface Energy Balances Geosystems 6e An Introduction to Physical Geography Robert W. Christopherson Charles E. Thomsen.

Atmospheric Heating Radiation Conduction Convection.

CHAPTER 19 HEAT TRANSFER IN THE ATMOSPHERE. WHAT IS THE ATMOSPHERE? Earth’s atmosphere is heated by the transfer of energy from the sun. Some heat comes.

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

The Greenhouse Effect.

Energy in the Earth’s Atmosphere

Energy from the Sun Sun’s energy travels 148 million km to Earth in only 8 minutes Earth receives less than one-billionth of the Sun’s energy Reaches Earth.

Unit 3 Notes Part 4: Greenhouse Effect

Energy Budget Subtitle.

The Atmosphere and Weather

Energy Transfer In the atmosphere.

Heating the Atmosphere

17.2 Heating the Atmosphere.

Energy Transfer in the Atmosphere

Energy transfer in the atmosphere

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

Energy from the Sun.

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

Energy and Heat Transfer in the Atmosphere

Climate Earth’s Energy Budget.

Heat in the Atmosphere.

Energy in the Earth’s Atmosphere

Energy and Heat Transfer in the Atmosphere

Solar Energy and the Atmosphere

Unit 5 Earth’s Energy Budget.

Energy in the Earth’s Atmosphere

Presentation transcript:

Chapter 16: Weather Factors Section 1: Energy in Earth’s Atmosphere

Section 1 Energy from the Sun Electromagnetic waves: a form of energy that can move through the vacuum of space Radiation: is the direct transfer of energy by electromagnetic waves Most of the energy from the sun travels to Earth in the form of visible light and infrared radiation. A small amount arrives as ultraviolet radiation

Section 1 Energy from the Sun Visible Light Non-Visible Light Includes all the colors in a rainbow Different colors are the result of different wavelengths Non-Visible Light Infrared radiation: wavelengths that are longer than red lights Ultraviolet radiation: an invisible form of energy with wavelengths that are shorter than violet light

Section 1 Energy in the Atmosphere Some sunlight is absorbed or reflected by the atmosphere before it can reach the surface. The rest passes through the atmosphere to the surface. Part of the sun’s energy is absorbed by the atmosphere Some sunlight is reflected. Clouds act like mirrors, reflecting sunlight back into space. Dust particles and gases in the atmosphere reflect light in all directions, a process called scattering. When the sun is rising or setting, its light passes through a greater thickness of the atmosphere than when the sun is higher in the sky.

Section 1 Energy at Earth’s Surface When Earth’s surface is heated, it radiates most of the energy back into the atmosphere as infrared radiation. Much of this infrared radiation cannot travel all the way through the atmosphere back into space. Instead, it is absorbed by water vapor, carbon dioxide, methane, and other gases in the air. The energy from the absorbed radiation heats the gases in the air. These gases form a “blanket” around Earth that holds heat in the atmosphere.

Section 1 Energy at Earth’s Surface The process by which gases hold heat in the air is called the greenhouse effect. The greenhouse effect is a natural process that keeps Earth’s atmosphere at a temperature that is comfortable for most living things. Over time, the amount of energy absorbed by the atmosphere and Earth’s surface is in balance with the amount of energy radiated into space.