Climate Change Entry Lesson Planetary Temperatures Activity SC.912.E.7.7Identify, analyze, and...

Climate ChangeEntry Lesson Planetary Temperatures Activity

SC.912.E.7.7 Identify, analyze, and relate the internal (Earth system) and external (astronomical) conditions that contribute to global climate change.

Essential Questions

• What factors determine the

average temperature of a

planet?

• In what ways can you describe

how the earth is heated?

Extension Question

How can you relateo internal (planetary system)

– and o external (astronomical)

conditions of Earth’s global

climate change to at least 1 of the

other inner planets?

http://wardssciencewiki.wikispaces.com/file/view/composite_earth1_red.gif/162969781/composite_earth1_red.gif

Electromagnetic Spectrum• Photons: packets of energy

o Have no mass

o Can travel through space

o Travel along wave paths

cuss/72057594124976565/

Radiation can be reflected, scattered, or absorbed

http://www.eco-info.net/what-are-greenhouse-gases.html/reflection

Planetary Temperature

• How does the average temperature of a planet depend on

its distance from the sun?

• Simple model Input: From the sun

Output: Radiation of a heated object

• Analysis Equilibrium: Input = Output

D=distance from sun, T=average temperature

Create a combination of D & T that is a constant

Use data to see how close each planet is to the same constant.

Design a Model to Simulate Solar Radiation

Collect DataModel Planet

NameDistance

from Heat Source cm

Equilibrium Temperature

Degrees Celsius

Input• Let S=total power (energy produced/time) of the sun (S ~

4x1026 watts)

• This power passes through the surfaces of all spheres of

that orbit the sun with radius R centered at the sun.

• The surface area of a sphere =4πR2.

• Power/Area = Intensity = S/4πR2

• Note: Same “inverse square law” applies to gravitational

attraction, spatial variation of sound and light intensity.

Input Intensity = S/4πR2

Output

• Radiation of heat from the object

• Common approximation: treat the planet as a “black

body”: Intensity = aT4

T: temperature (measured from absolute zero)

A: constant

Solar Input & Radiative Output

Equilibrium: Solar Input=Radiative Output

• S/4πR2 = aT4

• (S/4πa) = R2T4

• Model Prediction: RT2 = constant (all R).

• Test prediction: Measure R and T for various planets and note

whether the prediction is valid.

• Create a bar graph showing RT2 for each planet

Predict temperatures for planets

Planet Name Average Distance from Sun

Astronomical Units

Average Temperature

Degrees Kelvin

Mercury .39 400

Inner Planet DataPlanet Name Average

Distance from Sun

Astronomical Units

Average Temperature

Degrees Kelvin

Mercury .39 400

Venus .72 730

Earth 1.00 280

Mars 1.52 213

Excel Model•

Mercury

Earth Mars

100000

150000

200000

250000

300000

350000

400000

450000

1 2 3 4

1. What determined the temperature of your planets?

2. Did your planets come to an equilibrium temperature? What is happening at that temperature?

3. If your sun got hotter, would the temperature change? How?

4. If your planet got farther away, would the temperature change? How?

5. What conclusion can you draw when analyzing your model data and the actual measurements for the inner planets?

Closure: Planetary Temperatures

Inner Planets

http://evansscienceblog.blogspot.com/2012/02/inner-planets.html

Climate Change Entry Lesson Planetary Temperatures Activity SC.912.E.7.7Identify, analyze, and...

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