Stellar Evolution. A Closer Look at the Sun Our goals for learning: Why was the Sun’s energy source a major mystery? Why does the Sun shine? What is the.

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Presentation transcript:

Stellar Evolution

A Closer Look at the Sun Our goals for learning: Why was the Sun’s energy source a major mystery? Why does the Sun shine? What is the Sun’s structure?

Why was the Sun’s energy source a major mystery?

Is it on FIRE?

Luminosity ~ 10,000 years Chemical Energy Content

Is it on FIRE? … NO! Luminosity ~ 10,000 years Chemical Energy Content

Is it CONTRACTING?

Luminosity Gravitational Potential Energy Is it CONTRACTING? ~ 25 million years

Luminosity Gravitational Potential Energy Is it CONTRACTING? … NO! ~ 25 million years

Why does the Sun shine?

It can be powered by NUCLEAR ENERGY! Luminosity ~ 10 billion years Nuclear Potential Energy (core) E = mc 2 - Einstein, 1905

Gravitational equilibrium: Energy provided by fusion maintains the pressure

Gravitational contraction: Provided the energy that heated the core as Sun was forming Contraction stopped when fusion began

What is the Sun’s structure?

Radius: 6.9 x 10 8 m (109 times Earth) Mass: 2 x kg (300,000 Earths) Luminosity: 3.8 x watts

Solar wind: A flow of charged particles from the surface of the Sun

Corona: Outermost layer of solar atmosphere ~1 million K

Chromosphere: Middle layer of solar atmosphere ~ K

Photosphere: Visible surface of Sun ~ 6,000 K

Convection Zone: Energy transported upward by rising hot gas

Radiation Zone: Energy transported upward by photons

Core: Energy generated by nuclear fusion ~ 15 million K

What have we learned? Why was the Sun’s energy source a major mystery? –Chemical and gravitational energy sources could not explain how the Sun could sustain its luminosity for more than about 25 million years Why does the Sun shine? –The Sun shines because gravitational equilibrium keeps its core hot and dense enough to release energy through nuclear fusion.

What have we learned? What is the Sun’s structure? –From inside out, the layers are: Core Radiation Zone Convection Zone Photosphere Chromosphere Corona

The Cosmic Crucible Our goals for learning: How does nuclear fusion occur in the Sun? How does the energy from fusion get out of the Sun? How do we know what is happening inside the Sun?

How does nuclear fusion occur in the Sun?

Fission Big nucleus splits into smaller pieces (Nuclear power plants) Fusion Small nuclei stick together to make a bigger one (Sun, stars)

High temperature enables nuclear fusion to happen in the core Insert TCP 5e Figure 14.6

Sun releases energy by fusing four hydrogen nuclei into one helium nucleus

Proton-proton chain is how hydrogen fuses into helium in Sun

IN 4 protons OUT 4 He nucleus 2 gamma rays 2 positrons 2 neutrinos Total mass is 0.7% lower

Thought Question What would happen inside the Sun if a slight rise in core temperature led to a rapid rise in fusion energy? A. The core would expand and heat up slightly B. The core would expand and cool C. The Sun would blow up like a hydrogen bomb

Thought Question What would happen inside the Sun if a slight rise in core temperature led to a rapid rise in fusion energy? A. The core would expand and heat up slightly B. The core would expand and cool C. The Sun would blow up like a hydrogen bomb Solar thermostat keeps burning rate steady

Solar Thermostat Decline in core temperature causes fusion rate to drop, so core contracts and heats up Rise in core temperature causes fusion rate to rise, so core expands and cools down

How does the energy from fusion get out of the Sun?

Energy gradually leaks out of radiation zone in form of randomly bouncing photons

Convection (rising hot gas) takes energy to surface

Bright blobs on photosphere are where hot gas is reaching surface

What have we learned? How does nuclear fusion occur in the Sun? –The core’s extreme temperature and density are just right for nuclear fusion of hydrogen to helium through the proton-proton chain –Gravitational equilibrium acts as a thermostat to regulate the core temperature because fusion rate is very sensitive to temperature

What have we learned? How does the energy from fusion get out of the Sun? –Randomly bouncing photons carry it through the radiation zone –Rising of hot plasma carries energy through the convection zone to photosphere