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The Sun. Solar Structure Core Radiative zone Convective zone Atmosphere –Photosphere –Chromosphere –Corona Solar wind (mass loss)

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Presentation on theme: "The Sun. Solar Structure Core Radiative zone Convective zone Atmosphere –Photosphere –Chromosphere –Corona Solar wind (mass loss)"— Presentation transcript:

1 The Sun

2 Solar Structure Core Radiative zone Convective zone Atmosphere –Photosphere –Chromosphere –Corona Solar wind (mass loss)

3 Conditions Inside the Sun

4 Solar Power Sun’s glow fueled by Nuclear Fusion –Fusion is a process by which lighter atoms undergo “collisions” that spawn heavier atoms and a release of energy for radiation –Fission, on the other hand, is when a heavy atom “breaks up” to yield a lighter atom plus energy

5 Proton-Proton Chain p-p chain converts 4 1 H into 1 4 He (so 4 bare protons combine to make a helium nucleus with 2p’s and 2n’s) Also get photons and neutrinos in this process Neutrinos are (nearly) massless particles traveling near light speeds and interacting only weakly with matter

6 The Chain

7 Emergence of Light from the Core

8 Solar Neutrinos Neutrinos are elementary particles moving near light speed, but which interact only weakly with matter. They are important because they can come from nuclear reactions to emerge directly from the core of the Sun. Raymond Davis arranged for the first neutrino experiment. He discovered a “neutrino problem”, but this has now been resolved. A modern neutrino experiment, Super-Kamiokande run by Japan

9 The Chain

10 Solar Atmosphere Photosphere: the layer that we “see” in visible light Chromosphere: tenuous, somewhat hotter layer above photosphere Corona: extended region of million degree gas above chromosphere extending into space and the solar wind

11 Perspectives of the Sun

12 A Solar Eclipse

13 The Transition Region

14 Solar Activity Sunspots – cool blemishes that come and go on an 11 year cycle –During cycle, spots initially appear at high latitudes and thereafter at progressively lower lats. Prominences – extended columns of gas that trace out magnetic loops (can rise to 50,000 km above photosphere) Flares – explosive and energetic events involving hot gas of up to 40 million K

15 Solar Granulation - Convective Cells

16 Sunspots

17

18 Spicules

19 The Active Sun

20 Prominences

21 Magnetic Loops at the Sun

22 Solar Cycle in X-rays X-ray emission from the solar corona, taken every 120 days, from 1991 (left) to 1995 (going right)

23 Solar Cycle in the UV Images of the Sun in Extreme UV radiation

24 Butterfly Diagram

25 Understanding The Solar Cycle

26 The Solar Cycle in Magnetism

27 Sun-Earth Connection

28

29 Solar Cycle and the Earth’s Climate

30 The Solar Wind 1951, Biermann discovered solar wind by considering comet tails Speed near earth is around 400 km/s with a travel time across 1 AU of ~4 days Combination of the wind outflow and the magnetic field have caused a “spin down” of Sun’s rotation over time

31 Solar Wind Mass Flux

32 Space Weather

33 The Resonating Sun

34 Long-Term Changes in the Sun

35 The Sun in Time

36 Solar Sailing: Propulsion in the Future? To make G > 1 requires a material with (A/m) > 1300 m 2 /kg (equivalent to 36m x 36m) For 1 kg of sail, and G = 2, F net = 0.006 N

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