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Solar Interior.

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Presentation on theme: "Solar Interior."— Presentation transcript:

1 Solar Interior

2 Solar Interior Energy in the sun gets out by A. circulating gases.
B. emission of photons. C. interacting with electrons. D. all of the above.

3 Inner Layers The sun is mostly hydrogen with about 25% helium and small amounts of heavier elements. At different temperatures the gases behave differently forming layers. core radiative zone convective zone photosphere

4 Equilibrium Inside the sun the gas is acted on by forces.
Gravity inward Pressure outward The balance is called hydrostatic equilibrium. Density and temperature increase inside Computer models

5 Hot Sun Surface Temperature: 5,800 K Core Temperature: 15,000,000 K
The sun produces 1027 cal/min at its surface (4  1026 W). This is equivalent to 100 billion 1 megaton hydrogen bombs every second!! This energy produced in the Sun flows out as light and other electromagnetic energy.

6 Core In the core all gas is ionized and forms a plasma.
Temperatures up to 15,000,000 K Density up to 100 g/cm3 This is where fusion occurs. photons neutrinos

7 Radiation Layer Outside of the core is the radiation layer.
Temperature drops from 5,000,000 to 100,000 K Still plasma Too cool for fusion Photons work their way out through the layer. Absorption and re-radiation Typically 170,000 years photons

8 Convection Layer The highest 20% of the sun is the convection layer.
The temperature drops from 100,000 to 6,000 K. The hydrogen and helium are a gas again with no fusion. Energy is transferred through convection, the movement of gas to and from the surface (“hot” air rises). photosphere convection layer radiative layer

9 Seismic Sun Sound waves move through the Sun like earthquakes.
Velocity ripples on surface Probes interior The Global Oscillation Network Group tracks solar sound waves.

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