Explain what this picture shows. (your definition of heat island)

Slides:

Advertisements

Similar presentations

Heat and Air Temperature

Advertisements

What is an Urban Heat Island? Just from the name of this term, make a guess at what it means. Write the answer in your green book.

Heating Water and Land. Think About It: 70% of the Earth is water, therefore only 30% is land Most of that land is cloud covered So most of the incoming.

Weather and Climate- Day 2 The Sun’s Energy Ch. 17.

Weather World Geography Notes 1.5. Atmosphere Atmosphere is a thin layer of gases This protects the surface from Temperature extremes (acts as insulation)

Seasons Why we have them And some local effects. The Earth tilts The Earth travels around the sun in an ellipse –The tilt of the North of the Earth is.

THE RADIATION BUDGET (Exercise) Exercise: Monitor radiation budget at 2 sites (urban rural) using instruments.

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.

Key Words radiation budget electromagnetic spectrum albedo Understand the concept of radiation and heat exchange Outline factors that control incoming.

17.3 Local temperature variations

As we are reading remember to make connections with the text. They will help you to remember and understand the information more!

Earth’s Atmosphere Chapter 3, Section 2

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

Weather and Climate Part 1 - Introduction CGF3M Crescent School.

Objectives Explain how radiant energy reaches Earth.

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.

CLIMATE CHANGE Chapter 7. WEATHER vs CLIMATE Weather describes a set of environmental conditions encountered from day to day (short-term). The two main.

S6E2.c. relate the tilt of earth to the distribution of sunlight through the year and its effect on climate.

2 person team: The person who slams it cannot dunk it. Work together on putting response together 3-4 person team: One person slams it, another person.

Air Quality of NY By: Siré Bah and Stanley Mei. Why is Air Quality Important? O.o Why is Air Quality Important? O.o ♦ It is part of your everyday life.

Chapter 3 cont. (Heat & Temperatures). Heat & Temperature Basics temperature: the energy of molecular movement heat: a measure of the amount of energy.

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

Radiation and Conduction in the Atmosphere

Wind: Sea Breeze and Land Breeze. EnergyTransfer in the Atmosphere Energy moves through the atmosphere in three different ways-conduction, convection.

Weather Review. Air Masses Air Mass – A large body of air through which temperature and moisture are the same. Types 1. Continental – formed over land.

End Show Slide 1 of 26 Copyright Pearson Prentice Hall biology.

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

Energy Transfer In the atmosphere.

Warmup How does deforestation affect our climate? How do you calculate your carbon footprint?

Atmosphere Earth’s albedo. AtmosphereEarth’s albedo “Describe and explain the energy exchanges that result in the Earth’s surface receiving only 56% of.

Global Warming Learning goal: determine the long term impact of humans on weather and vise versa.

THE DYNAMIC EARTH Section 2: The Atmosphere Standards: SEV1a, SEV1e.

Thermal Energy Question Review

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

Chapter 4 Atmosphere and Surface Energy Balances Robert W. Christopherson Charlie Thomsen © 2012 Pearson Education, Inc.

Unit 11 Lesson 6 Climate Copyright © Houghton Mifflin Harcourt Publishing Company 1.

Warmup What is the Industrial Revolution? How does it relate to climate change?

Chapter 23 The Atmosphere, Climate, and Global Warming.

Solar Energy 6-4.7, Solar Energy Comes from the sun Causes the atmosphere to move (wind) Can be absorbed or bounced off the atmosphere Without.

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.

Which of these is a harmful effect of temperature inversions?

Urban Climate Characteristics

Weather and Climate Weather and Climate are Two Different Things

Unit 9 Section 2: Solar Energy and the Atmosphere

Managing Environmental Problems and the Urban Microclimate

Lesson objectives: To examine the other symptoms of urban stress

Climate Notes Climate is the description of long-term weather patterns. described according to temperature ranges (seasonal variations) and seasonal changes.

Heat in the Atmosphere.

8.10 Feedback Loops and Climate

Solar Energy Chapter 22.2.

DO NOW Turn in Review #17 Pick up notes and Review #18.

ALBEDO ability of a surface to reflect light & heat energy back into the atmosphere & space Low Medium High anything darker / black anything middle spectrum.

Warmup How does deforestation affect our climate?

Fig. 2 shows the relationship between air temperature and relative humidity. 2 (a) (i) Describe the relationship shown in Fig. 2. [3] (ii) State.

Solar Energy and the Atmosphere

Section 2: The Atmosphere Standards: SEV1a, SEV1e

Fig. 2 shows the relationship between air temperature and relative humidity. (a) (i) Describe the relationship shown in Fig. 2. [3] (ii) State.

Patterns in environmental quality and sustainability

Heat Islands 2.6.3B EXPLAIN HOW LARGE-SCALE DEVELOPMENT CONTRIBUTES TO REGIONAL CHANGES IN CLIMATE (I.E. HEAT ISLANDS IN LARGE CITIES LIKE NY, CHICAGO,

Aim: What factors affect the climate of an area?

Energy Transfer In the atmosphere.

Section 2 Atmospheric Heating.

Thermal Energy from the Sun

Sun Earth Sun: shortwave radiation Earth: longwave radiation.

Warmup How does deforestation affect our climate?

Science 10 – Weather Day 4 - Water.

Thermal Energy from the Sun

3. Local winds and global winds are generally a result of which of the following? A). Earth’s tilted axis. B). Unpredictable changes in the atmosphere.

The Sun is the source of energy for the Earth.

Presentation transcript:

Explain what this picture shows. (your definition of heat island)

The term "heat island" refers to urban air and surface temperatures that are higher than nearby rural areas.temperatures

Urban Climate Dome

Outline how these factors work to promote a heat island. 1.Concrete and man made surfaces 2.Less water in the soil and environment 3.Excess energy from buildings

Albedo IMPORTANT technical term –How much radiation a surface reflects –Lighter the surface the higher the albedo Tar, asphalt, brick and concrete absorb insolation from the sun (in different amounts)asphalt and release it as heat, rather than reflecting it.

During the day in rural areas, the solar energy absorbed near the ground evaporates water from the vegetation and soil. Thus, causes evaporative cooling. In cities, where there is less vegetation, the buildings, streets and sidewalks absorb the majority of solar energy input.

What about the buildings and the people in them? We made list of the heat producing parts of a city. The activities that humans take part in that would be more common in a city…. Cars/buses/air conditioning (we did more?)

Remember, the way the heat island effect works, is that it increases the overall temperature of the city. (a bit like the greenhouse effect) But in particular, it raises night time temperatures (not always day time) by the slow releasing of heat. Which makes it an overall increase

Design an experiment so that we could measure if Douglas has a heat island. *Plan on paper, be ready to present. Individual work! [ Also, an experiment to see if the heat island is related to urbanisation.]

Create a glossary of important terms- Albedo / Particulates / Urban Heat Island Cliff / Plateau / Sink / Anthropogenic Why does the Urban Heat Island occur? When is it most noticeable? Using technical terms describe the pattern of temperature variations and give possible reasons for such changes.