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Climate Dynamics Starts with the Sun NASA Image From Wallace and Hobbs r = 6.96x10 8 m T=5780K Photosphere Sunspots Faculae Figure 1.1.

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Presentation on theme: "Climate Dynamics Starts with the Sun NASA Image From Wallace and Hobbs r = 6.96x10 8 m T=5780K Photosphere Sunspots Faculae Figure 1.1."— Presentation transcript:

1 Climate Dynamics Starts with the Sun NASA Image From Wallace and Hobbs r = 6.96x10 8 m T=5780K Photosphere Sunspots Faculae Figure 1.1

2 Integration of Intensity over a Hemisphere to Get Net Downward Energy Flux Density in W/m 2. 1 m 2 area We want Watts per m 2. Figure 1.2

3 Sun and Earth Blackbody Spectra, Trace Gas Absorption Lines From Wallace and Hobbs Figure 1.3

4 Climate Dynamics Starts with the Sun NASA Image From Wallace and Hobbs r = 6.96x10 8 m T=5780K Photosphere Sunspots Faculae Figure 1.4

5 The Earth’s Orbit is Elliptical Figure 1.5

6 Measurement of the Solar Constant from Satellite is Difficult Figure 1.6 Improved Instrument More Scattering, Higher Irradiance Measured Kopp and Lean (2010)

7 Recent Solar Constant Measurements from the SORCE Experiment Figure 1.7 Courtesy of Greg Kopp (LASP)

8 Climate Dynamics Starts with the Sun NASA Image From Wallace and Hobbs r = 6.96x10 8 m T=5780K Photosphere Sunspots Faculae Figure 1.8

9 11-Year Sunspot Cycle Indicates Variations in Solar Luminosity Percent Area of Photosphere Covered by Sunspots Fraction Area of Entire Photosphere Covered by Sunspots Yellow >1% Figure 1.9

10 Direct Measurements of Solar “Constant” IPCC 2013 Satellite Retrievals Figure 1.10

11 Solar “Constant” Reconstructions Suggest Stronger Longer-Term Variations IPCC 2007 Figure 1.11

12 IPCC 2013 Figure 1.12 Solar Forcing Since 1750 is Relatively Small Compared to Other External Perturbations to the Climate System. *Volcanic Ignored.

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