Presentation is loading. Please wait.

Presentation is loading. Please wait.

For Expanding Universe, with look back times to where Universe was noticeably different (density and expansion rate), Will see effects of expansion and.

Published byLeo Harper Modified over 9 years ago

Similar presentations

Presentation on theme: "For Expanding Universe, with look back times to where Universe was noticeably different (density and expansion rate), Will see effects of expansion and."— Presentation transcript:

1 For Expanding Universe, with look back times to where Universe was noticeably different (density and expansion rate), Will see effects of expansion and D will be complex D will depend on 1+z,    and  m

2 Make observations of D versus 1+z Fit curves based on different amounts to   and  m Extract the best fit Never proves a model Demonstrates a model is consistent (or not) with observations

3 SNe are bright so can see far enough away to see effects of change in expansion rate of universe SNe Ia are “easy” to calibrate

4 Take case of where D is simple D = velocity/(Hubble “Constant”) ; D = V/H H is a measure of expansion rate, higher H higher expansion. H 0 = expansion rate now H 0 is what we measure out to z = about 0.1 for z in this range z = V/c where c = speed of light => z V If universe has been slowing down in expansion

5 Means higher H in past. For a given H 0 and  m we infer how fast the slow down => H 0  m H 0 and  m give D But suppose in last billion years expansion has speeded up? Then H 0 we see is higher than the value we should be using => we calculate D too low

6 => calculate expected F too high, F = L/4  D 2 When we look, find SNe Ia fainter than expected if  m were 1  m low (0.2) is better, but Still not good because D versus 1+z is complex due to acceleration (   )

7 Positive means fainter SNe Ia fainter than expected velocity Sub from all and the result re- plotted below

8 Need to calibrate several effects seen SNe people have done a very thorough job One of “coolest” things is they see affect of “time dilation” (cf. Book pages 174-177) Things moving faster appear to have slower moving clocks If we take 1+z to be a relative velocity with respect to us, we get the right answer for the SN light versus time! Special relativity works; the model all hangs together

9

10

11 More sample light curves Fig.1: UBVRI and Bolometric Light Curves of SN 1994D, from Vacca & Leibundgut (1996). Solid lines are the best fits of the model to the data; residuals are plotted below each panel. Dashed lines are the commonly used templates for Type Ia light curves.

12 Next, a short course in stellar evolution=>

13

Download ppt "For Expanding Universe, with look back times to where Universe was noticeably different (density and expansion rate), Will see effects of expansion and."

Similar presentations

Acceleration Acceleration Velocity-time graph Questions.

Acceleration Acceleration Velocity-time graph Questions.
Ch1 0 The Big Bang Where do we come from, where are we going?

Ch1 0 The Big Bang Where do we come from, where are we going?
The Fate of the Universe. The cosmological principle The simplest universes is: Homogenous – the same everywhere you go Isotropic – the same in all directions.

The Fate of the Universe. The cosmological principle The simplest universes is: Homogenous – the same everywhere you go Isotropic – the same in all directions.
Distance Time Graphs Time is always plotted on x axis

Distance Time Graphs Time is always plotted on x axis
The Age of the Universe. The universe is expanding !!  The visible universe is made up of clusters of stars, held together in galaxies by their mutual.

The Age of the Universe. The universe is expanding !!  The visible universe is made up of clusters of stars, held together in galaxies by their mutual.
15 The Big Bang Where do we come from, where are we going?

15 The Big Bang Where do we come from, where are we going?
SPECIAL RELATIVITY -Postulates of Special Relativity -Relativity of time –> time dilation -Relativity of length –> length contraction © 2005.

SPECIAL RELATIVITY -Postulates of Special Relativity -Relativity of time –> time dilation -Relativity of length –> length contraction © 2005.
18 The Big Bang Where do we come from, where are we going?

18 The Big Bang Where do we come from, where are we going?
J. Goodman – May 2003 Quarknet Symposium May 2003 Neutrinos, Dark Matter and the Cosmological Constant The Dark Side of the Universe Jordan Goodman University.

J. Goodman – May 2003 Quarknet Symposium May 2003 Neutrinos, Dark Matter and the Cosmological Constant The Dark Side of the Universe Jordan Goodman University.
Cepheids are the key link One primary justification for the Hubble Space Telescope was to resolve Cepheids in galaxies far enough away to measure the Hubble.

Cepheids are the key link One primary justification for the Hubble Space Telescope was to resolve Cepheids in galaxies far enough away to measure the Hubble.
1 Announcements Cosmos Assignment 5, due Monday 4/26, Angel Quiz Monday, April 26 Quiz 3 & Review, chapters 16-23 Wednesday, April 28, Midterm 3: chapters.

1 Announcements Cosmos Assignment 5, due Monday 4/26, Angel Quiz Monday, April 26 Quiz 3 & Review, chapters Wednesday, April 28, Midterm 3: chapters.
Physics 6C Special Relativity Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.

Physics 6C Special Relativity Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.
Special Relativity & General Relativity

Special Relativity & General Relativity
Do your course evaluations. I will add 5 points on your final exam if you complete the evaluation.

Do your course evaluations. I will add 5 points on your final exam if you complete the evaluation.
How do we really know what's out there? Space is a pretty big place and, after all, we've never been farther from earth than our moon. How do we know.

How do we really know what's out there? Space is a pretty big place and, after all, we've never been farther from earth than our moon. How do we know.
Practicing with Graphs

Practicing with Graphs
In Search of the Big Bang

In Search of the Big Bang
What is acceleration? My speedometer:. Acceleration occurs when speed changes Now we don’t want our cruise control on We want to use our gas pedal or.

What is acceleration? My speedometer:. Acceleration occurs when speed changes Now we don’t want our cruise control on We want to use our gas pedal or.
Copyright © 2010 Pearson Education, Inc. Lecture Outline Chapter 29 Physics, 4 th Edition James S. Walker.

Copyright © 2010 Pearson Education, Inc. Lecture Outline Chapter 29 Physics, 4 th Edition James S. Walker.
Chapter 29 Relativity.

Chapter 29 Relativity.

Similar presentations

Ads by Google