Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Physical Basis of Climate (ATSC5400/4400) Spring 2011 Stellarsphere Slides Sun and Plancks Function Orbital influences on climate (Croll – Milankovitch)Orbital.

Published byGavin Elliott Modified over 9 years ago

Similar presentations

Presentation on theme: "The Physical Basis of Climate (ATSC5400/4400) Spring 2011 Stellarsphere Slides Sun and Plancks Function Orbital influences on climate (Croll – Milankovitch)Orbital."— Presentation transcript:

1 The Physical Basis of Climate (ATSC5400/4400) Spring 2011 Stellarsphere Slides Sun and Plancks Function Orbital influences on climate (Croll – Milankovitch)Orbital influences on climate (Croll – Milankovitch)

2

3 Solar Radiation Sun - typical main sequence dwarf star R o = 6.95 x 10 5 km, M o = 2 x 1030 kg 71% H, 26.5% He, 2.5% heavier metals Mean earth sun distance 1.496 x 10 8 km Core out to 0.25 R o Temperature ~ 10 7 K  Hot enough to cause fusion of H in to He  provides energy for the sun. Energy transfer by radiation, temperature ~ 10 6 K, ~0.7 R o Final ~0.3 R o energy transfer by convection  violent small scale (10 3 km) mixing process  granulation Photosphere ~ 1000 km thick, dominant source of solar radiation - relatively continuous emission - determines sun's blackbody temperature, 5800 K. Sunspots here. Chromosphere - 5000 - 10,000 km thick, temperature ~ 10 5 - 10 6 K. Radiation from emission lines from H, He, Ca. Corona - region above chromosphere, extending out for several solar diameters, temperature ~ 10 6 K. Prominences, Solar flares appear here. Origin of solar wind. Most solar energy in the continuum is from non- quantized electronic transitions (free - free, bound - free transitions)

4 B(υ,T)=2hυ 3 /c 2 [1/(e hυ/(kT) -1)] B(λ,T) = -8πhc/λ 5 1/[e hc/(λkT) -1]

5 B(υ,T)=2hυ 3 /c 2 [1/(e hυ/(kT) -1)]

6 B(λ,T) = -8πhc/λ 5 1/[e hc/(λkT) -1] B(υ,T)=2hυ 3 /c 2 [1/(e hυ/(kT) -1)]

7

8 http://www.pmodwrc.ch/tsi/composite/pics/org_comp2_d41_62_1009.png http://blog.ltc.arizona.edu/azmasternaturalist/Sunspot%20cycle.JPG

9 http://solarscience.msfc.nasa.gov/images/ssn_predict_l.gif

10

11

12 http://www.universetoday.com/wp-content/uploads/2008/10/moon_formation.jpg

13

14

15 Precession of 90° implies planet closest to sun in fall

16

17 Figure 7.2 Map of July-January surface air temperature differencesFig. 7.2 Map of July-January surface air temperature difference (C).

18 Milankovich cycles: Eccentricity-100,000 Obliquity-41,000 Precession-23,000 years 41,000 y 100,000 y 23,000 y CO2 today

19

20 http://upload.wikimedia.org/wikipedia/commons/5/53/MilankovitchCyclesOrbitandCores.png Obliquity Eccentricity Precession Ecc * Prec Solar insolation  ------- Pleistocene ---------------------Holocene Croll -

21 Harvey, 2000 Houghton, 2004

Download ppt "The Physical Basis of Climate (ATSC5400/4400) Spring 2011 Stellarsphere Slides Sun and Plancks Function Orbital influences on climate (Croll – Milankovitch)Orbital."

Similar presentations

What is the fate of our sun and other stars?

What is the fate of our sun and other stars?
The Sun The Sun is a star. The Sun is a star. It is 4,500 million years old It is 4,500 million years old It takes 8 minutes for its light to reach.

The Sun The Sun is a star. The Sun is a star. It is 4,500 million years old It is 4,500 million years old It takes 8 minutes for its light to reach.
 How Many Stars are in our Solar System???? a.Hundreds b.Millions c.Billions Explain why you chose the answer you picked.

 How Many Stars are in our Solar System???? a.Hundreds b.Millions c.Billions Explain why you chose the answer you picked.
Review Vocabulary magnetic field: the portion of space near a magnetic or current-carrying body where magnetic forces can be detected The Sun contains.

Review Vocabulary magnetic field: the portion of space near a magnetic or current-carrying body where magnetic forces can be detected The Sun contains.
The Sun- Our Star. The Sun- Our Star Star Parts: core radiation zone convection zone photosphere chromosphere corona solar wind.

The Sun- Our Star. The Sun- Our Star Star Parts: core radiation zone convection zone photosphere chromosphere corona solar wind.
+ The Sun. Sun Facts Makes life on our planet possible by giving us great amounts of light and heat Contains about 98% of the mass of the entire Solar.

+ The Sun. Sun Facts Makes life on our planet possible by giving us great amounts of light and heat Contains about 98% of the mass of the entire Solar.
Sun Vocabulary. Process and Purpose This power point is supposed to be used as a resource to help you learn the vocabulary of what we are studying. Each.

Sun Vocabulary. Process and Purpose This power point is supposed to be used as a resource to help you learn the vocabulary of what we are studying. Each.
Full name Period II. Chapter 14, section 2: The Sun A. The Sun: is our local star. 1. Spectral Class: G2. 2. Distance to Earth:149,600,000 km *At the speed.

Full name Period II. Chapter 14, section 2: The Sun A. The Sun: is our local star. 1. Spectral Class: G2. 2. Distance to Earth:149,600,000 km *At the speed.
The Sun: Our Star The Sun is an ordinary star and shines the same way other stars of its type do. The bright part normally seen is called the photosphere,

The Sun: Our Star The Sun is an ordinary star and shines the same way other stars of its type do. The bright part normally seen is called the photosphere,
Chapter 5 Lesson 1: The Sun. What is the Sun? A star which produces its own energy (light) There are stars which can make ten million times what the sun.

Chapter 5 Lesson 1: The Sun. What is the Sun? A star which produces its own energy (light) There are stars which can make ten million times what the sun.
The Sun 24.3 A typical star powered by nuclear reactions Mostly the (fusion of hydrogen to form helium) Which releases energy.

The Sun 24.3 A typical star powered by nuclear reactions Mostly the (fusion of hydrogen to form helium) Which releases energy.
THE SUN. CLASSIFICATION OF THE SUN Class G Color Yellow Surface Temperature 5,000 – 6,000 ºC Elements hydrogen and helium Greek word for Sun is Helios.

THE SUN. CLASSIFICATION OF THE SUN Class G Color Yellow Surface Temperature 5,000 – 6,000 ºC Elements hydrogen and helium Greek word for Sun is Helios.
By Miss O..  Remember “ solar ” means “things having to do with the sun (in Latin).

By Miss O..  Remember “ solar ” means “things having to do with the sun (in Latin).
Is There Life Out There? Our Solar System (and beyond) Draw a picture of what you think life would look like on another planet, if it existed. Describe.

Is There Life Out There? Our Solar System (and beyond) Draw a picture of what you think life would look like on another planet, if it existed. Describe.
Unit 3 Lesson 3 The Sun Ms. Grant 1

Unit 3 Lesson 3 The Sun Ms. Grant 1
From the Core to the Corona – a Journey through the Sun

From the Core to the Corona – a Journey through the Sun
The Sun.

The Sun.
The Sun By Jack. What is the sun? The sun is a star, it is the closest star to Earth and is the centre of our solar system. It is an average star, meaning.

The Sun By Jack. What is the sun? The sun is a star, it is the closest star to Earth and is the centre of our solar system. It is an average star, meaning.
The Solar Interior Core Radiation Zone Convection Zone.

The Solar Interior Core Radiation Zone Convection Zone.
The Sun ROBOTS Summer 2008. Solar Structure Core - the center of the Sun where nuclear fusion releases a large amount of heat energy and converts hydrogen.

The Sun ROBOTS Summer Solar Structure Core - the center of the Sun where nuclear fusion releases a large amount of heat energy and converts hydrogen.

Similar presentations

Ads by Google