Measuring Albedo with ADI

Slides:

Advertisements

Similar presentations

Presented by Morton Sternheim

Advertisements

Albedo: Its effects on global warming in Polar Regions Presented by Morton Sternheim.

Albedo: Its effects on global warming in Polar Regions Presented by Morton Sternheim.

CO2 Diffusion Through Gelatin Experiment

CO2 Diffusion Through Gelatin Experiment

1 MET 112 Global Climate Change MET 112 Global Climate Change - Climate Feedbacks Professor Menglin Jin San Jose State University Outline  Stability/instability.

Solar constant The solar constant is the amount of incoming solar radiation per unit area, measured on the outer surface of Earth's atmosphere, in a plane.

Albedo Its effects on global warming in Polar Regions STEM Polar Connections.

Solar Energy Solar energy is the source of most of Earth’s heat on land, in the oceans and in the atmosphere. When solar energy interacts with air, soil.

Impacts of Climate Change – The Arctic WORLD AT RISK.

Review Climate Change. Weather vs Climate Weather is the daily atmospheric conditions including temperature and precipitation Climate is the average weather.

Global Warming and the Greenhouse Effect Climate and Climate Change.

Albedo. 3/30 WHOT Teaching Point:  Objective: Collect data on the albedo of various surfaces on Earth.  Responsibilities: Albedo Lab Due Wednesday.

Measuring Albedo with ADI Morton M. Sternheim June, 2012.

The Role of Solar Energy in Global Winds and Ocean Currents.

The Greenhouse Effect. What controls climate? Energy from the Sun – Radiation! Consider the 4 inner planets of the solar system: SUN 342 W m W.

Albedo: Its effects on global warming in Polar Regions Presented by Morton Sternheim.

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

Energy in the Earth System Surface Temperature measurements.

Heat Energy Transfer SNC2D.

Investigations Using a Digital Camera To Observe and Quantify the Effects of Pollution on Aiptasia pallida, a Model Organism for Coral Presented by Jennifer.

Green house gasses Sultan althani 7E. Carbon dioxide Carbon dioxide is a colorless, neutral gas produced by burning carbon and organic mix and by respiration.

Insolation and the Greenhouse Effect Energy in Earth’s 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.

Climate Change Activities Looking at Surface Albedo Changing Planet: Melting Glaciers –Glaciers Then and Now –Measuring the rate of change.

The Sea Ice-Albedo Feedback in a Warming Climate: Albedos from Today and Reflections on Tomorrow Don Perovich 1 and Tom Grenfell 2 1 Cold Regions Research.

Heat in the Atmosphere The sun’s energy is transferred to earth and the atmosphere three ways Radiation, Convection and Conduction.

The Greenhouse Effect and Global Warming GHB 2005.

How Convection Currents Affect Weather and Climate.

Balance of Energy on Earth Yumna Sarah Maria. The global energy balance is the balance between incoming energy from the sun and outgoing heat from the.

1 MET 112 Global Climate Change MET 112 Global Climate Change - Lecture 7 Climate Feedbacks Dr. Eugene Cordero San Jose State University Outline  Stability/instability.

ENERGY IN ECOSYSTEMS Chapter The sun is the source of all energy for the earth and its ecosystems. What happens to the suns energy? What is it used.

THIS IS Jeopardy. THIS IS Jeopardy With Your Host... Mrs. Walsh.

Natural Environments: The Atmosphere

Lesson 6: Holding on to heat

Climate Change Climate – The average year after year pattern of temperature, precipitation, winds and clouds in an area. Climates are classified mainly.

8.3 Earth’s Climate System

The Albedo Effect & Climate Change

8.10 Feedback Loops and Climate

Consequences of Climate Change & Adaptation

TRANSFER OF HEAT ENERGY

Aim: What factors affect the climate of an area?

Presented by Morton Sternheim

Climate: Earth’s Dynamic Equilibrium, Part 2

ENERGY IN THE BIOSPHERE

Consequences of Climate Change: Sea Level Rise

What is Climate?.

Earth’s Energy and Balance

The Sun Powers Earth’s Climate System

Nutrient Cycles.

Instructor’s Name: Day #:

Are other parts of the world getting hotter?

Solar Energy What happens to that INcoming SOLar radiATION?

Angle of Incidence The shape of the Earth also plays a part in insolation. Because it’s spherical, a light ray hitting at the equator strikes the Earth.

Measuring Arctic and Antarctic Ice

Aim: What factors affect the climate of an area?

The global energy household

2.1 Energy Relationships and the Biosphere

1. How does sunlight change as it is absorbed. A. It becomes heat. B

What is Climate?.

Heat Radiation Some of the heat energy from the Sun reflects off the atmosphere back into space Atmosphere Some heat enters the atmosphere Earth.

Greenhouse Gases Lesson 69.

Science 10 – Weather Day 4 - Water.

Climate Chapter 4.1.

Natural Changes in Climate

Science 10 – The Sun Distributing the Heat

What is the difference between climate and weather

Add to table of contents:

Warm up Day 1: You will need your INB, 2 different colors, scissors, tape & computer. Rising sea levels are caused by primarily 2 factors: Thermal expansion.

Presentation transcript:

Measuring Albedo with ADI Morton M. Sternheim www.umassk12.net/digital June, 2012

Objectives ADI Content Learn how to use Rectangle Tool to measure intensity (brightness) Learn how to use Line Tool Learn how to use File  Graph Colors Learn how to avoid over exposing photos Content Understand role of albedo in Polar climate change Understand how albedo depends on surface

Big Idea Why are Polar Regions more affected by global warming than other parts of the globe? One reason (there are others) is that as sea ice melts and more open water appears, more energy is absorbed, and warming accelerates. This is a form of positive feedback and it makes the polar climate change faster than the climate in temperate areas. Increasing vegetation on land also has a similar positive feedback effect.

Albedo This effect is a change in the albedo – the fraction of the incident sunlight that is reflected back to space. The albedo is much higher for snow and ice than for water or vegetation. http://www.energyeducation.tx.gov/environment/section_3/topics/predicting_change/img/albedo.gif

Measuring Albedo with ADI Use Xerox paper as a standard; use 0.6 as its albedo Avoid overexposure by having the paper fill about half the image Xerox paper on grass

Click on Spatial Analysis, then open your image

Draw a Xerox Rectangle Average color 77.61

Draw a Sample Rectangle Average color 10.86

Result Albedo = 0.6 x (sample value)/(Xerox value) In this example, . Albedo of grass area = 0.6 (10.86/77.61) = 0.084 = 8.4% .

Using the Line Tool to Measure Albedo

File  Graph Colors  Same Result ~75% ~10% Colors turned off

Comments This is a simple activity and does not depend on an understand of color basics, pixels, etc. Caution: If any intensity is 100% or close to that, the photo is overexposed and cannot be used to measure the albedo. 13