The Hertzsprung-Russell diagram and the nature of stars.

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Presentation transcript:

The Hertzsprung-Russell diagram and the nature of stars

At this point, we have learned a lot about stars: absolute magnitudes (luminosities), distances, temperatures, chemical composition, spectral type… Let’s put all the pieces together and learn something really profound about stars

With information provided by spectroscopy, we can search for correlations between stellar properties

What the data show: the Hertzsprung- Russell Diagram Highest quality data from the Hipparchus spacecraft

The Sun is here The Sun is generically related to most other stars. How? Why?

Filling out the Hertzsprung-Russell diagram

The Hertzsprung-Russell Diagram and the Types of Stars See Figure Types of stars, important terms Main Sequence (luminosity class V) Giants (luminosity class III) Supergiants (luminosity class I) White dwarfs What does it all mean?

The Hertzsprung-Russell Diagram

The scientific classification scheme for the Sun The Sun is a class G2V star…a main sequence, spectral class G star…the Galaxy probably has a billion of them

The Hertzsprung-Russell diagram is a plotting board for the nature and evolution of stars

Understanding the Main Sequence (stars like the Sun) A statistical argument (no physics) Physical argument 1: what holds stars up? Physical argument 2: what powers the stars (where do they get their energy supply?)

The nature of the Main Sequence #1: the MS as a Cambus Stop Many more people seen on the sidewalk near a Cambus stop than a random point

The Main Sequence is a long-lived phase of stellar evolution. Stars spend a much longer time here than in other parts of the HR diagram

Back to the Sun: its interior structure The Sun is a key to understanding the stars because we can get such detailed information about it

First hint: solar granulation as evidence of convection Convection=boiling Motion of hot fluid in A gravitational field demo

The scale of solar granulation

How can we know the structure of the Sun below the photosphere? Application of the laws of physics (equations of stellar structure), find solution consistent with mass and radius of Sun Measure “eigenmodes” of the Sun (see how fast it jiggles Results for how the sun is put together

Our knowledge of the solar interior

Stellar interior slides from textbook (17.1) Gravity tends to squeeze a star into ever- smaller object. What resists this tendency?

Physical properties 1: density Units: mass/volume Grams/cc (1)water…1 grams/cc (2) rock… about 3 grams/cc (3)Lead…11.3 grams/cc

Physical properties 2: temperature Units: degrees centrigrade Temperature Kelvin: degrees C above absolute zero Temperature of this room: 295K Boiling point of water: 373 K Surface temperature of Sun 5800K

Distribution of density inside the Sun

Distribution of temperature inside the Sun

The interior of the Sun is a region of extreme physical conditions