1. General Relativity Theory of gravity developed by Einstein
Consider accelerating reference frames
No observer can determine by experiment whether he or she is accelerating or is rather in a gravitational field.
2. Examples
3. Intertial Mass &�Gravitional Mass Inertial Mass is what appears in F=ma
Gravitional Mass appears in Newtons Gravitational Law and determines the gravitational force between two objects
No reason for them to be the same
Principle of equivalence is really just saying the two masses are the same.
4. Bending Light
5. Experimental Test
6. Space Curvature We determined earlier that light follows the fastest path between two points
Since the light bends, space must be curved by the presence of an object
Well look at the rubber sheet analogy
7. Space Curvature
8. Black Holes Let the object be so massive that it bends space so much that light cannot escape the curvature
Most galaxies appear to have one or more black holes at the center
9. Expanding Universe Recall the Doppler shift
Objects retreating have light waves that are shifted toward the red
Objects approaching have light waves that are shifted toward the blue
Have to use special relativity to calculate
10. Receding objects Expanding Universe
11. Lines from galaxies are red-shifted
Amount of shift depends on distance to galaxy
V=HD
Doesnt work for nearby galaxies in our local group
H = 80 km/s/Mpc Hubbles Law
12. Implies expansion of the university
Must have been an explosion in the past
We are NOT in the middle
Expansion looks the same from anywhere Hubbles Law
13. Expansion of the Universe
14. Quasars (quasi-stellar objects) do not conform to Hubbles Law
Bright as nearby stars by have enormous redshifts
Two choices
Near and unusual redshift
Far and unusual brightness
Most likely bright galaxies with large black holes Quasars
15. The universe looks the same to observers in different places at the same time
Universe is isotropic (same in all directions)
Universe is homogeneous (would look the same if we relocate to another galaxy)
Only true on a very large scale
Galaxies (visible matter) tends to clump in clusters Cosmological Principle
16. Age of the Universe Use Hubble Constant
Midpoint of estimated range of values is 22km/s per million light years.
17. Cosmic Microwave Background If the universe is finite, then it was all in one spot in a tiny volume approaching a point 15 billion years ago.
This is not just all the mass in one spot with empty space around it
The spot was the entire universe
The size of the universe has increased like blowing up a balloon and observing spots on the surface to get farther apart
18. Penzias and Wilson built radio telescope to do communications research
Had a background noise that they couldnt get rid of
Measuring they found noise unchanged in direction, time of day or time of year
Later measurements showed blackbody spectrum at a temperature of 2.7 degrees Kelvin (microwaves) Cosmic Microwave Background
19. Gamow predicted such radiation should exist as a result of the big bang in the late 1940s and P&W discovered it in the 1960s
Strong confirmation of the theory Cosmic Microwave Background
20. Early universe very hot and very dense
No atoms, just photons, leptons, quarks
Photons could not escape capture by electrons (collisions)
Expansion cooled things down
Once temperature down to 3000 Kelvin, atoms can form and be stable
Radiation decouplde from matter Early History
21. Universe expanded and radiation redshifted to longer wavelengths that correspond to cooler temperatures
Early universe was radiation-dominated
Later, after some expansion became matter-dominated Early History
22. Standard Cosmological Model
23. What is the curvature of space-time? The Future
24. How much matter compared to critical density that leads to big crunch?
Visible matter is only about 1%
Appears to be dark matter based on motion of galaxies that cannot be explained on the basis of gravity and the visible matter
Dont know what it is The Future
25. Any evidence expansion is slowing?
Actually evidence from some supernovae that the expansion is increasing in speed!!
Dont know what this all means
Lots of work for physicists to do in the future
Hooray!!!!!
The Future
