Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download The Sun - University of Minnesota
Document related concepts
Astronomical unit wikipedia , lookup
History of Solar System formation and evolution hypotheses wikipedia , lookup
Advanced Composition Explorer wikipedia , lookup
Type II supernova wikipedia , lookup
Timeline of astronomy wikipedia , lookup
Tropical year wikipedia , lookup
Formation and evolution of the Solar System wikipedia , lookup
Transcript
The Sun Properties • M = 2 X 1030 kg = 300,000 MEarth • R = 700,000 km > 100 REarth • 70% H, 28% He • T = 5800 K surface, 15,000,000 K core Structure Sun’s Atmosphere Sun’s Atmosphere • Solar Wind – stream of particles blown out from the sun • Corona – Extends several million km above surface – T = 1,000,000 K – Emits X-Rays • Chromosphere – T = 10,000 K – Emits UV • Photosphere – T = 5,800 K – Emits visible light Sun’s Interior • Convection Zone – Energy travels up toward the surface via rising hot gas • Radiation Zone – Photons travel through plasma 1/3 down from surface • Core – Energy is produced Sun’s Interior • Convection Zone – Energy travels up toward the surface via rising hot gas • Radiation Zone – Photons travel through plasma 1/3 down from surface • Core – Energy is produced Energy • • • • Measured in joules or calories Power is the rate energy is used 1 Watt = 1 joule/s We call the power output of a star it Luminosity • LSun = 3.8 X 1026 watts Hydrostatic Equilibrium • Why doesn’t gravity just make the whole star collapse? – Gravity pulls in – Pressure from inside the sun pushes out – These two things balance perfectly How does the Sun shine? Historical Views • Burning ball of coal or wood • Energy release due to gravitational contraction – Kelvin-Helmholtz contraction Nuclear fusion • E=mc2 • Cloud of gas collapsed, releasing potential energy • Gas heats • Gravity creates high pressure • High pressure and temperature allow nuclear fusion • Need high temperature so particles move fast enough to collide • Nuclear strong force keeps particles stuck together Proton-Proton Chain Solar Neutrinos Solar Thermostat Random Walk • Radiation has to make it out of the sun • Photon bounces randomly off of electrons – Density of Sun’s core means lots of bounces • Photons take a few hundred thousand years to get out Solar Activity Magnetic Fields • Material can travel along magnetic field lines • It is difficult to travel across field lines Sunspots Solar Prominence Solar Prominence Video Solar Flare • Sometimes magnetic fields get too stretched and can’t handle the stress anymore • They break, releasing trapped material • Video Coronal Mass Ejections CME Video Sunspot Cycle • Cycle lasts ~11 years – 7-15 yrs Sunspot Cycle
