Physics of the Cosmos Secs 37.1-37.3. Reminders Lab D1-LFA: Light from Atoms due 4 (this will be the last lab for the semester) In-class Quiz.

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Presentation transcript:

Physics of the Cosmos Secs

Reminders Lab D1-LFA: Light from Atoms due 4 (this will be the last lab for the semester) In-class Quiz #6 Thursday, November 20??? – Keep, reschedule, or delete – will address chapter 37 only Reading quiz due prior to class on Thursday Final exam, Thursday, December 11, 10:00- 12:00 p.m. (in this room)

But first… the Cosmos The Night Sky The Milky Way Stars (individual, binary, variable) Clusters (globular and open) Nebulae (reflection, emission, dark, planetary) SNRs, Neutron Stars, & Black Holes Galaxies The Universe

The Night Sky

The Milky Way

Galactic Structure

Individual Stars

Binary Stars

Variable Stars

Clusters OpenGlobular

Nebulae I EmissionDark

Nebulae II ReflectionPlanetary

SNRs, Neutron Stars & Black Holes SNR with Neutron StarBlack Hole Model

Galaxies I SpiralBarred Spiral

Galaxies II EllipticalIrregular

The Universe

Matter & Radiation Dominance The Big Bang started off immensely hot! The time since the beginning of the universe is 1/H years or about 13.8 billion years. Radiation dominated the early universe. Matter dominance occurs after radiation “cools” enough for matter to condense per the relationship E=mc 2.

Matter Dominance (today) The universe is composed mostly of matter. Most of the past 13.8 billion years has been dominated by matter. Our “horizon” is 13.8 billion light years away. During this period, the rate of expansion has been slowing (but for some recent findings!) In the past, H was much higher.

Radiation Dominance (early) Radiation dominated the early universe. The nature of the radiation was that of a black body radiator at an extremely high temp. Remnants of the early universe are BB-like, but strongly red-shifted.

Wien’s Law

Stefan-Boltzmann Law