1 understanding the physics of the cosmic times inquiring into the nature of the universe adapted...
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Understanding the PHYSICS of the Cosmic Times
Inquiring into the Nature of the Universe
Adapted from Dr. James LochnerUSRA & NASA/GSFC
Sandra Sweeney, Joseph PetskoPerkiomen Valley School District, PA
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Understanding the PHYSICS of the Cosmic Times 1955
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The world mourns Einstein’s DeathEinstein’s four revolutionary theories:
E = mc² explains how matter can come from energy, and vice versa (E=energy, m=mass, c=speed of light)
Light is not only a wave, but also a particle
Theory of Special Relativity: “nothing can go faster than the speed of light”
Gravity bends space-time
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Big idea inYardsticks:The universe is twice as big as thought : Two Types of Cepheids!
During the wartime blackouts in California, Walter Baade used 200” Hale telescope and discovered two different populations of stars in Andromeda
There are two types of Cepheids, with two different period-luminosity relationships.
Hubble had unknowingly used the wrong relationship. Like measuring with a Yardstick when he should have used
a Meterstick
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A new type of star discovered:
the supernovaGiant exploding
starsCreate heavier, bigger elements
Elements discovered by use of spectroscopy
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Star life cycle: see textbook
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New Radio telescope: Earth’s largest steerable radio antenna
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Telescopes can see all parts of the electromagnetic spectrum
Examples of telescope types:
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Radio telescopes – capture radio waves
The Very Large Array at Socorro, New Mexico, United States – 27 telescopes!!
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The 64 meter radio telescope at Parkes Observatory - Australia
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Visible light telescopes: reflecting or refracting
Refracting
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Refracting telescopes
Advantages Easy to use Excellent for viewing
moon, planets, binary stars
Sealed tube protects optics and reduces image degrading
Rugged, need little or no maintenance
Disadvantages Generally small apertures,
3 to 5 inches Tough to see small and
faint deep sky objects (distant galaxies and nebulae)
Heavy, long and bulky Can be expensive per inch
of aperture
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Famous refracting ‘scopes: Yerkses
Observatory (Univ Chicago)
Lowell Observatory (Flagstaff AZ)
24” Clark Telescope
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Reflecting telescope
Reflecting telescopes use a huge concave parabolic mirror instead of a lens to gather and focus the light to a flat secondary mirror that in turn reflects the image out of an opening at the side of the main tube. You look through an eyepiece on the side of the tube up near the top.
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Reflecting telescopes
Advantages Easy to use and construct Excellent for faint deep
sky objects (galaxies, nebulae and star clusters)
Few optical irregularities, deliver very bright images
Reasonably compact and portable
Costs less per inch of aperture compared to refractors (mirrors cheaper than lenses)
Disadvantages Not suited for terrestrial
applications Some light loss when
compared with refractors Dust can get onto optics
due to open tube even if kept under wraps
May require more care and maintenance
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Famous Reflecting ‘scopes
Hale telescope Mt Wilson CA
Keck telescope Mauna Kea, HI
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Hubble space telescope
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2 different theories of the universe’s origin:
Steady State Theory: As universe expands, matter is created; may appear unchanging Universe is eternal, stars always being made
Evolutionary Theory (a.k.a. the Big Bang theory): running expansion backwards leads us to a point of high density and high temperature from which universe originated. (created everything all at once) 2 possible outcomes:
All will suck back together due to gravity and rebound, back and forth forever
OR Everything expands forever
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Steady State Universe
Fred Hoyle, Hermann Bondi and Thomas Gold see the movie The Dead of Night, in which the end of the story circles back to its beginning.
Unchanging situations need not be static New matter can be created spontaneously as the universe
expands (a few hundred atoms per year per galaxy) Expansion of universe and creation of new matter balanced
via a negative energy. The universe is constant in its overall density
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Evolutionary Universe
Starting from earlier work, George Gamow & Ralph Alpher worked out the conditions in the early universe
Universe is expanding from a state of high density and pressure.
Hydrogen & Helium were formed as universe cooled.
There should be left over a background radiation with a temperature of ~ 5 Kelvin
Hoyle scoffed at this theory and coined the term “Big Bang”
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What is the Evidence? The Mark 1 radio antenna constructed to
detect radio waves leftover from the Big Bang
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Spectroscopy
What is spectroscopy?
The study of light
Most objects in space give off visible light
This light is captured and analyzed with spectroscopes
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Spectroscopy – the study of light
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Purpose of spectroscopy:See the element’s “fingerprint” coming from star or galaxy
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Using a spectroscope, astronomers can detect the elements in a star – can know its life stage, temperature, movement,…
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Light Source Colors that you see
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Try the spectroscope activities…
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Use the known element’s spectrum to identify the unknown elements
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Recording data from a spectroscope
Light Source
Natural Color
Spectrum(colors)
Sunlight White R O Y G B I V
Fluorescent
Hydrogen (H)
Helium (He)
Water Vapor (H2O)
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1965
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Show clip from 1965 CT, with “Murmur of a Bang” and “Big Hiss”
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Tool used: Penzias and Wilson were
using a 20-foot radio antenna to test telephone satellite communication.
Discovered 3°K of microwave/radio wave energy, But they didn’t know its origin.
THE FIRST OBSERVED EVIDENCE OF THE BIG BANG
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Tool for Determining “Steady State” vs. “Big Bang”
Peebles and Dicke (Princeton) had just calculated an estimate for the temperature (3.5º K) of the residual background radiation from the big bang explosion, and found it was detectable in the microwave region.
Called “cosmic background radiation”
CONCLUSION: This was strong evidence against the Steady State theory for the Big Bang theory.
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Review of…
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Supernovae Leave Behind X Rays
X rays in space detected with “sounding rockets”
Atmosphere blocks harmful X-rays
Good for us that it does
”
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Why do we need telescopes in space?
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Absorption of electromagnetic radiation
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Sco X-1 Scorpius X-1
1st extrasolar (outside our solar system x ray source)
In the constellation Scorpio
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Taurus XR-1 in the Crab Nebula 1st X Ray source
in constellation Taurus
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Ophiuchus XR-1
Found in constellation Ophiuchus (serpent bearer)
Kepler’s supernova from 1604
In foot of Ophiuchus
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New Problem #1 in 1965, assuming the Big Bang to be true:
Will the universe eventually collapse back into itself, and explode again in an endless cycle (“oscillating universe”)
OR Will the universe keep increasing in size
forever with each galaxy isolated in emptiness?
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Problem #2 has arisen with improved technological observations
Galaxies do not appear to have enough mass in them compared to their energy or luminosity (brightness). Where is missing mass? (99%)
E = mc2 The massive amounts of energy (brightness)
must come from some great amount of matter!!
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Problem #3
X-rays are being detected from the universe…
But from where?
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Discovery of QUASARS Galaxy-like objects that emit radiation that we can
detect Power of 10 trillion suns Travel at 450 million miles/hr. (2/3 speed of light) They have been detected nearly 14 billion light-
years away. What does this distance tell us about the age of the universe?