Chapter 12: The Lives of Stars. How do we know it s there? Three Kinds of Nebulae 11/7/11. 1) Emission Nebulae 2) Reflection Nebulae 3) Dark Nebulae

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1 11/7/11 Chapter 12: The Lives of Stars Space is Not Empty The Constellation Orion The Orion Nebula This material between the stars is called the Interstellar Medium It is very diffuse and thin. In fact it is almost a vacuum. How do we know it s there? The Interstellar Medium (ISM) The Interstellar Medium is composed of: Gas (99%) and Dust (1%) by mass 1. Nebulae Hydrogen (~75%) 2. Absorption lines Helium (~25%) Carbon, etc. (< 1%) 3. Reddening The ISM is Visible as Clouds Called Nebulae Three Kinds of Nebulae 1) Emission Nebulae 2) Reflection Nebulae 3) Dark Nebulae The Eagle Nebula (ground based photo) Eagle Nebula Close Up (Hubble Space Telescope) The Fox Fur Nebula 1

2 11/7/11 Emission Nebulae (HII Regions) When a cooler star illuminates a cloud of gas and dust, star light is reflected by the dust HII = Ionized Hydrogen Hot star shines on a gas cloud, energizes the gas A reflection nebulae always appears blue Electrons jump to higher energy levels Reflection Nebula near The Pleiades When they fall back to ground state they produce emission lines. NGC 2246 The Cat s Eye Nebula Blue Reflection Nebulae and the Blue Sky Short wavelengths (blue light) are scattered more easily than long wavelengths (red light) by small particles Dark Nebulae Dense clouds of gas and dust can absorb the light from the stars behind them. Reflection Nebulae Close Up The Trifid Nebula Reflection (blue) -> cooler star Emission (red) > hotter star Interstellar Reddening Stars near edges appear red because of interstellar reddening Barnard 86 Horsehead Nebula Dust blocks (shorter-λ) blue light better than (longer- λ) red light 2

3 Interstellar Reddening Observing Newborn Stars Observations of infrared light reveal stars on the other side of the cloud Visible light from a newborn star is trapped in the gas clouds Observing Newborn Stars Star Formation: Cloud Collapse How does a thin cold cloud of gas and dust become a dense hot shining star? Observing the cloud in IR light can reveal the newborn star The problem is density: ISM: 10 3 atoms/cm 3 Star: atoms/cm 3! To become a star, the cloud must condense tremendously A star-forming nebula Gravity versus Pressure Gravity can create stars only if it can overcome the force of thermal pressure in a cloud Star Formation 1. Start with a cloud - ISM 2. Form little dense regions a. From collapse b. From shock waves 3. Dense regions collapse under gravity 4. Dense regions get hotter 3

4 Fragmentation of a Cloud This simulation begins with a turbulent cloud containing 50 solar masses of gas Fragmentation of a Cloud The random motions of different sections of the cloud cause it to become lumpy Fragmentation of a Cloud Each lump of the cloud in which gravity can overcome pressure can go on to become a star A large cloud can make a whole cluster of stars Star Formation from Shocks Crab Nebula: A Supernova which exploded in 1054 AD When a high mass O type star ends its life, it explodes as a supernova Material from the exploding star might collide with a nebula in its path. Protostars on the HR Diagram Once a protostar is hot enough to start fusion, it can blow away the surrounding gas Then it is visible: crosses the birth line on the HR diagram The more massive the cloud, the faster it will form stars Hydrostatic Equilibrium Gravity is pulling the outer part of a stars toward the center Thermal Pressure can resist the pull of gravity. Nuclear fusion in the core of a star releases huge amounts of energy. This energy (heat) creates the thermal pressure. Hydrostatic Equilibrium occurs when gravity and pressure forces balance 4

5 Pressure-Temperature Thermostat Main sequence stars are self-regulating systems, small changes get corrected If thermal pressure drops: 1. Star shrinks a little 2. Density increases 3. Temperature increases 4. Nuclear reactions speed up 5. Thermal pressure rises again Shocks Triggering Star Formation Henize 206 (infrared) Shock waves can push material together in a cloud, creating dense regions Proto-Planetary System in The Orion Nebula. Protostars Henize 206 Part of a nebula (infrared) condenses into a knot of gas called a protostar. Protostars are surrounded by material which can form planets. Hydrostatic equilibrium keeps stars stable for billions of years. The inward force of gravity is balanced by the force of pressure pushing out. All stars on the Main Sequence (of the HR Diagram) are stable and in equilibrium. Lifetimes of Stars Estimate a star s lifetime based on how much fuel it has, and how fast it uses up its fuel 1 T = M 2.5 M = Mass of star in solar masses (M Sun ) T = Lifetime of star in solar lifetimes (T Sun ) Leaving the Main Sequence Stars live most of their lives on the Main Sequence When they run out of Hydrogen Fuel, they leave the Main Sequence and begin to die. 5

6 Star Formation and Lifetimes Lecture-Tutorial: Pg Work with a partner or two Read directions and answer all questions carefully. Take time to understand it now! Come to a consensus answer you all agree on before moving on to the next question. If you get stuck, ask another group for help. If you get really stuck, raise your hand and I will come around. Lifetimes of Stars Low-mass stars: Economy Cars High-mass stars: Gas guzzlers Mass Lifetime Creating Elements with Nuclear Fusion Nuclear fusion is the source of energy for all stars. Hydrogen (H) can be fused into Helium (He) in two ways: Proton-Proton Chain C-N-O Cycle Stars can also fuse He into: Carbon, Nitrogen & Oxygen Examples of Nuclear Fusion The Proton-Proton Chain Used by the Sun to fuse protons (H nuclei) into He 4 H -> He + energy Anything heavier than Lithium is only made in stars! CNO Cycle: Another way to fuse H -> He CNO cycle is used in massive stars and involves: Carbon (C) Nitrogen (N) & Oxygen (O) Examples of Nuclear Fusion Making Heavy Elements Starting with H, He, C, O, or N fusion can create many other elements: Mg, Na, Al, Si, etc. 6

7 Low-Mass Stars (0.4 M sun or less) HUGE convection zone! Hydrogen & Helium get mixed throughout star s lifetime T > 100 billion years Longer than the age of the universe Average-Mass Stars Lifetime of the Sun: About 10 billion years total After H fuel is used up in the core, fusion stops Core contracts: heats up area around the core H shell fusion around He core Energy from shell fusion forces outer layers to expand, cool off: the Sun becomes a Red Giant Average-Mass Stars The Sun becomes a Giant, leaves the Main Sequence (doesn t move in space!) It runs out of fuel, the Thermal Pressure in the core decreases, and gravity will cause the core to shrink If the core can shrink enough, it can start Helium fusion The Sun s Last Gasp Helium Fusion Produces Carbon and Oxygen Is hotter than hydrogen fusion. So the star s outer layers heat up and expand even more.until they are lost to space. These layers form great clouds called: planetary nebulae Planetary Nebulae The last gasps of dying stars (not related to planets!) Helix Nebula (close-up view) Planetary Nebulae Helium burning ends with a pulse that ejects the H and He into space as a planetary nebula The core left behind becomes a white dwarf 7

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