ASTRONOMY

1. ASTRONOMY Chapter 29 Supernovae

2. Supernovae • Low-mass stars die a quiet death with the occasional nova whimper. • High-mass stars – those with masses more than 8 Mo – await a very different end. • These stars go through a supernova • Type Ia supernovae are the result of a low-mass star being incinerated. • Type II supernovae is a high-mass star exploding at the end of its’ life

3. Types of Supernovae

4. Pre-Type II Structure

5. Type II Supernovae • Since their life is relatively short, they are seen near where they are born • Only seen in the spiral arms of spiral galaxies where new stars are being born.

6. One Model • Core of heavy elements begins to collapse. • O and Mg fuse in about 1000 years • Si and S fuse to Fe in just a few days • Fe cannot fuse to heavier elements • The core collapses and reaches the Chandraskhar limit (1.4 M˳) • Matter is added to it. • Temperature climbs into the billions of K

7. One Model • Fe nuclei are broken into H nuclei (alpha particles), protons and neutrons by high energy photons • This process absorbs energy the pressure decreases and the core collapses – rapidly • In a matter of seconds, the inner core collapses from earth-sized to city-sized. • The core rebounds

8. One Model • The outer core falls in on the inner core. • The collapsing outer core collides with the rebounding inner core • The shockwave causes the formation of even heavier elements and throws off the outer layers

9. One Model • The heavy elements that have been formed are ejected into space • Those elements enrich the interstellar gas • Elements heavier than H that make up you, have gone through a supernova • Some stars may have masses up to 60 to 100 M˳

10. In Summary

11. Supernova Remnants http://apod.nasa.gov/apod/ap051202.html