1 met 112 global climate change met 112 global climate change - lecture 2 “greenhouse effect:...
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3 MET 112 Global Climate Change Unit Review What was today’s low temperature in ºC? California is about 800 miles long (from Oregon to Mexico). How many kilometers is that? If you were told that the average high temperature in Sydney Australia at this time of year is 26ºC, what temperature is that in ºF?TRANSCRIPT
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MET 112 Global Climate Change - Lecture 2
“Greenhouse Effect: Earth and Venus”
Dr. Eugene Cordero
San Jose State University
Outline Earth and Venus Greenhouse effect Climate Change
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UnitsUnits
Our class will use both English and Metric unit systems.
Most important:– Distance (kilometres and miles) – Temperature (ºC and ºF)
Conversions:1.6 km = 1 mile; 1 km = 0.61 miles(9/5 x ºC) + 32 = ºF(ºF – 32) x 5/9 = ºC
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Unit ReviewUnit Review
What was today’s low temperature in ºC?
California is about 800 miles long (from Oregon to Mexico). How many kilometers is that?
If you were told that the average high temperature in Sydney Australia at this time of year is 26ºC, what temperature is that in ºF?
Three temperature scales:Three temperature scales:•KelvinKelvin•CelsiusCelsius•FahrenheitFahrenheit
•What does temperature What does temperature mean physically?mean physically?
•What does 0What does 0°° K mean? K mean?
°K= °C+273°K= °C+273
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The Solar System
“The nine planets”
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Average Surface Temperature of Earth and Venus: Factors to consider
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Average Surface Temperature of Earth and Venus: Factors to consider Which planet is closer to the Sun?
Which planet is more reflective?
Which planet has a larger ability to absorb and retain solar energy?
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Source of Energy: The Sun
Sun radiates energy; Energy “radiates out” with distance
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Earth and Venus
Venus
Earth
Sunlight striking Venus is 93% stronger than sunlight striking Earth, thus we would expect Venus to be warmer
Based on solely the position of Venus and the Earth, which planet would be warmer?
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Temperature Based Only on Distance to the Sun
Based only on distance to the sun, – Venus would be somewhat warmer than
Earth Average surface temperatures would be as
follows if the planets absorbed all of the incoming sunlight:– Earth: 5°C– Venus: 55°C
However …
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Venus and Earth do not absorb all of the incoming sunlight
Part of the incoming sunlight is reflected back into space
Earth reflects 30% Venus reflects 70% This leads to an important concept
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Definition
Albedo: The fraction of light reflected by an object or a surface
White objects have high albedos Black objects have low albedos
Increasing albedo
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Comparison of Earth and Venus
Venus is completely covered by highly reflective clouds; Earth is partially covered by clouds. Which planet has a higher albedo? _______________
Venus Earth
Venus
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Comparison of Earth and Venus
Earth’s albedo is 30% Venus’ albedo is 70%
Earth absorbs 70 % of the sunlight that strikes it.
Venus absorbs 30 % of the sunlight that strikes it.
Let’s re-examine the surface temperatures with this information.
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Absorption of Solar Radiation Taking into Account Distance to Sun and Albedo
Let intensity of sunlight striking Earth be denoted by 100
In these units, intensity of sunlight striking Venus is 193
Earth absorbs 100 x 0.70 = 70 units
Venus absorbs 193 x 0.30 =58 units
Thus, Earth absorbs sunlight at a greater rate than Venus does!
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Temperature Taking Into Account Distance to Sun and Albedo
If a planet’s mean surface temperature were determined solely by the rate of absorption of solar radiation, – Venus would be colder than Earth.
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Actual Surface Temperatures
Based on average measurements combining surface air temperature and sea surface temperatures:– Earth’s mean surface temperature is about
15°C– Venus’ mean surface temperature is 480°C!
So… Venus absorbs less sunlight than Earth, yet Venus’ surface is much hotter than Earth’s Why?
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Recap
Rate of absorption of sunlight can be calculated from outer space; distance to sun and albedo are all that are required
Surface temperature is not correctly predicted from rate of absorption of sunlight
What could cause such a difference?
The respective atmospheres of the Earth and Venus
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Atmospheres of Earth and Venus (Gases)
Earth1. Nitrogen (N2)
2. Oxygen (O2)
3. Argon (Ar)4. Water Vapor (H2O)
5. Carbon Dioxide (CO2)
Venus1. Carbon Dioxide2. Nitrogen
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Principal Atmospheric Gases
Earth Venus
GAS MASS
Nitrogen 3870 (75%)Oxygen 1185 (23%)Argon 67 (1%)Water Vapor 17 (0.3%)CO2 3 (0.06%)TOTAL 5140
GAS MASS
CO2 ~500, 000 (96%)
N2 ~20, 000 (4%)
TOTAL 520, 000
Unit: 1018 g
Compare the amount of CO2
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Comparison of Atmospheres
Conclusions:1. Venus has a much more massive atmosphere
than Earth.
2. Venus’ atmosphere is mostly CO2.
3. The mass of CO2 in Venus’ atmosphere is almost 100 times greater than the total mass of Earth’s atmosphere.
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Why is CO2 So Important?
Carbon Dioxide is a greenhouse gas. Greenhouse gases are those gases that cause
the greenhouse effect. The greenhouse effect makes a planet’s
surface temperature warmer than it would otherwise be.
The stronger the greenhouse effect, the warmer the surface (other factors being equal).
Consider the blanket analogy
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Greenhouse Gases
Water Vapor
Carbon Dioxide
Methane (CH4)
Nitrous Oxide (N2O)
Ozone (O3)
CFC’s (chlorofluorocarbons)
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Comparison of Greenhouse Effects
Venus’ atmosphere contains ~ 25, 000 times as much greenhouse gas as Earth’s!
So, Venus has a much stronger greenhouse effect than Earth.
Thus, Venus has a much hotter surface than Earth, despite the fact that Venus absorbs less sunlight than Earth.
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What does this have to do with climate?
Greenhouse gases like CO2 play an important role in determining surface temperatures.
Changes in greenhouse gases, thus can potentially increase or decrease surface temperatures.
Therefore, the temperature of earth has more to do with the Earth’s atmosphere than how close the earth is to the sun.
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Activity 1b
Answer each question and turn in at the beginning of the next class
1. If the earth’s albedo was to increase due to more clouds, how would the Earth’s temperature change?
2. Today, greenhouse gases like CO2 are increasing in the atmosphere. How would that would change the earth’s temperature?
3. If increases in greenhouse gases act to produce more clouds, how would that change the earth’s temperature (consider your answers to 1 and 2).