![New Stars, New Planets?](http://s1.studyres.com/store/data/005576855_1-ce0676c8d27edce12da74ce448e8a892-300x300.png)
New Stars, New Planets?
... solar system; the new planets under consideration are 500,000 times more distant than Pluto. Astronomers look for small, regular variations in the Doppler shifts of light emitted by stars. Such changes indicate a back and forth "wobbling" of the star's motion, perhaps due to gravity effects from an ...
... solar system; the new planets under consideration are 500,000 times more distant than Pluto. Astronomers look for small, regular variations in the Doppler shifts of light emitted by stars. Such changes indicate a back and forth "wobbling" of the star's motion, perhaps due to gravity effects from an ...
Milky Way Galaxy
... collection of roughly a hundred billion stars. Our Sun is one of these stars and is located roughly 24,000 light years (or 8000 parsecs) from the center of our the Milky Way. COBE image of the Milky Way: (Courtesy of Ned Wright ...
... collection of roughly a hundred billion stars. Our Sun is one of these stars and is located roughly 24,000 light years (or 8000 parsecs) from the center of our the Milky Way. COBE image of the Milky Way: (Courtesy of Ned Wright ...
Stellar and Atomic Spectra
... electrons is not true? A) Electrons orbit the nucleus rather like planets orbiting the Sun. B) Within an atom, an electron can have only particular energies. C) Electrons can jump between energy levels in an atom only if they receive or give up an amount of energy equal to the difference in energy b ...
... electrons is not true? A) Electrons orbit the nucleus rather like planets orbiting the Sun. B) Within an atom, an electron can have only particular energies. C) Electrons can jump between energy levels in an atom only if they receive or give up an amount of energy equal to the difference in energy b ...
Science 1 (MillinerSci1)
... 12. Which tool is used by astronomers to make objects that are far away appear larger? A. microscope B. satellite C. spacecraft D. telescope 13. In a family of rabbits, half the rabbits are brown and half are white. Which statement BEST explains why the rabbits have two different colors? A. The whit ...
... 12. Which tool is used by astronomers to make objects that are far away appear larger? A. microscope B. satellite C. spacecraft D. telescope 13. In a family of rabbits, half the rabbits are brown and half are white. Which statement BEST explains why the rabbits have two different colors? A. The whit ...
YOUR NAME 1 Astronomy 18, UCSC Planets and Planetary
... c) equal to the speed of the wave divided by the wavelength of the wave d) all of the above 9) When white light passes through a cool cloud of gas, we see a) thermal radiation b) an absorption line spectrum c) an emission line spectrum 10) What do we mean by the diffraction limit of a telescope? a) ...
... c) equal to the speed of the wave divided by the wavelength of the wave d) all of the above 9) When white light passes through a cool cloud of gas, we see a) thermal radiation b) an absorption line spectrum c) an emission line spectrum 10) What do we mean by the diffraction limit of a telescope? a) ...
Ch.1, Sec.3 - Mapping the Stars
... constellation: a region of the sky that contains a recognizable star pattern and that is used to describe the location of objects in space - every star or galaxy is located within 1 of 88 constellations - as seasons change on Earth, the visibility of certain ...
... constellation: a region of the sky that contains a recognizable star pattern and that is used to describe the location of objects in space - every star or galaxy is located within 1 of 88 constellations - as seasons change on Earth, the visibility of certain ...
Oceanography Chapter 1 – “Origins”
... are pulled together by gravity. • Proto-stars are not hot enough for fusion to occur. ...
... are pulled together by gravity. • Proto-stars are not hot enough for fusion to occur. ...
hubble amazing universe worksheet
... your blood and _______________ in wedding rings is created in a super nova! 14. Eta Carina is ______________ solar masses, is young, but unstable. Its explosion will be as bright as the full moon, and cast shadows at night! 15. Hubble provided conclusive proof that a _____________ ______________ exi ...
... your blood and _______________ in wedding rings is created in a super nova! 14. Eta Carina is ______________ solar masses, is young, but unstable. Its explosion will be as bright as the full moon, and cast shadows at night! 15. Hubble provided conclusive proof that a _____________ ______________ exi ...
The Sun
... Change Earth Temperatures? • Not well understood – clearly a very complex mechanism is involved. However, • Lower solar activity -> Lower solar luminosity, so that’s one way. But probably inadequate to fully explain historical climate record, since the effect is far less than 1% • Could solar activi ...
... Change Earth Temperatures? • Not well understood – clearly a very complex mechanism is involved. However, • Lower solar activity -> Lower solar luminosity, so that’s one way. But probably inadequate to fully explain historical climate record, since the effect is far less than 1% • Could solar activi ...
Spring `03 final exam study guide
... full (phase) gibbous (phase) crescent (phase) acceleration velocity wavelength frequency photon electromagnetic spectrum rotation solar (lunar) eclipse umbra revolution volatile penumbra corona perigee apogee binary star Doppler effect spectroscope asteroid escape velocity ion stellar wind asteroid ...
... full (phase) gibbous (phase) crescent (phase) acceleration velocity wavelength frequency photon electromagnetic spectrum rotation solar (lunar) eclipse umbra revolution volatile penumbra corona perigee apogee binary star Doppler effect spectroscope asteroid escape velocity ion stellar wind asteroid ...
Grade 9 Science – Unit 4 Space Quiz
... initial Big Bang event b. Galaxies are moving away from Earth in all directions at a constant rate c. Remnant heat from the original very hot expansion has been measured d. All of the above 18. What type of star forms after a Supernova explosion? In this star, the centre collapses so that protons an ...
... initial Big Bang event b. Galaxies are moving away from Earth in all directions at a constant rate c. Remnant heat from the original very hot expansion has been measured d. All of the above 18. What type of star forms after a Supernova explosion? In this star, the centre collapses so that protons an ...
VARIATIONS IN SOLAR RADIATION AND THE CAUSE OF ICE AGES
... enough to prove that a process of replenishment must be permanently available. But there is in addition a vast amount of circumstantial evidence from almost every branch of theoretical astronomy. The existence of interstellar matter was already well known, but for various reasons hydrogen does not r ...
... enough to prove that a process of replenishment must be permanently available. But there is in addition a vast amount of circumstantial evidence from almost every branch of theoretical astronomy. The existence of interstellar matter was already well known, but for various reasons hydrogen does not r ...
Five Women at the Crossroads of Astronomy - Physics
... • Get the fun and excitement of doing science across to the young. Stress that science requires imagination, creativity, and ardor. • Provide children with positive role models early on, both in the home and at school. • Nurture everyone who enters college wanting to be a ...
... • Get the fun and excitement of doing science across to the young. Stress that science requires imagination, creativity, and ardor. • Provide children with positive role models early on, both in the home and at school. • Nurture everyone who enters college wanting to be a ...
The hierarchical structure of the Universe (go from little to large)
... B No, but a pair of binoculars is sufficient to see it. C Barely. D As a faint and tiny patch of glow. E As a band of light all the way around the sky. ...
... B No, but a pair of binoculars is sufficient to see it. C Barely. D As a faint and tiny patch of glow. E As a band of light all the way around the sky. ...
He fusion
... At this rate, how long will the Sun last? Remember, the mass deficit every time one of these processes happens was 4.40 x 10-29 kg mass loss per sec = mass deficit x no. per sec. = 4.40 x 10-29 x 9.6 x 1037 = 4.22 x 109 kg ...
... At this rate, how long will the Sun last? Remember, the mass deficit every time one of these processes happens was 4.40 x 10-29 kg mass loss per sec = mass deficit x no. per sec. = 4.40 x 10-29 x 9.6 x 1037 = 4.22 x 109 kg ...
Classnotes 9_159 - University of Texas Astronomy
... By using the symbol ∝, I avoid having to introduce discussion of the units used for the B, L, and d. I will now work a simple problem using the above expression and then do the same problem using 'the formula.' ...
... By using the symbol ∝, I avoid having to introduce discussion of the units used for the B, L, and d. I will now work a simple problem using the above expression and then do the same problem using 'the formula.' ...
The magnitudes of stars
... faint star may well look brighter than another star that is actually brighter but more distant. (A good example of this is shown by Rigel and Sirius in the following table. Sirius looks brighter than Rigel when seen from the Earth but it is actually fainter but much closer. The actual brightness of ...
... faint star may well look brighter than another star that is actually brighter but more distant. (A good example of this is shown by Rigel and Sirius in the following table. Sirius looks brighter than Rigel when seen from the Earth but it is actually fainter but much closer. The actual brightness of ...
Part 2: Solar System Formation
... • Among these clouds the Hubble Space Telescope observed lumps and knots that appear to be new stars and planets being formed. ...
... • Among these clouds the Hubble Space Telescope observed lumps and knots that appear to be new stars and planets being formed. ...
PC2491 Examples 2
... is flat with an amplitude of 220 km s-1 , and that Ro = 8.2 kpc and estimate the two possible distances to this cloud. (4) Estimate the mean free path of a star in a region where the stellar density is 1 star pc-3 and typical stellar velocities are 10 km s-1 (assume all stars 1Mo). In the same regio ...
... is flat with an amplitude of 220 km s-1 , and that Ro = 8.2 kpc and estimate the two possible distances to this cloud. (4) Estimate the mean free path of a star in a region where the stellar density is 1 star pc-3 and typical stellar velocities are 10 km s-1 (assume all stars 1Mo). In the same regio ...
R136a1
![](https://commons.wikimedia.org/wiki/Special:FilePath/R136a1_star.jpg?width=300)
RMC 136a1 (usually abbreviated to R136a1) is a Wolf-Rayet star located at the center of R136, the central condensation of stars of the large NGC 2070 open cluster in the Tarantula Nebula. It lies at a distance of about 50 kiloparsecs (163,000 light-years) in the Large Magellanic Cloud. It has the highest mass and luminosity of any known star, at 265 M☉ and 8.7 million L☉, and also one of the hottest at over 50,000 K.