Our Stars - City of Laguna Beach

... star. The top is sloped from back to front so that the blue star top is visible. There are ten sides, in pairs, including two that have a waving American flag. The remainder of the sides contain curved pieces of stainless steel running from the top to the base. These shapes represent the water and ...

27DarkMatter

... center of galaxies that provide more pull than we expected based on where we see the light coming from • Most astronomers feel that the latter is more likely, hence we believe that galaxies are filled with some unknown type of dark matter – The dark matter is NOT just where the stars are, it must fi ...

Chapter 3b powerpoint presentation

... determines the Blackbody temperature, T. Since stars radiate approximately as blackbodies, their brightness depends not only on their distance, but also their temperature and the wavelength you observe them at. ...

Neutron Stars and Black Holes

... • Joseph Taylor and Russell Hulse used these measurements to show that gravitational waves must be leaving the orbiting neutrons stars, removing energy and causing them to spiral together (got Nobel Prize for this). • In 2003, the first double pulsar binary was found. Two neutron stars orbiting each ...

Age, EvoluFon, and Size of the Cosmos

... •  Protons and neutrons are able to bind together to form nuclei since their binding energy is now greater than the cosmic background radia+on energy, so the background of light (photons) can’t break th ...

3919 - newmanlib.ibri.org

... Three features of stars were especially important in the ANE and relevant to OT background: (1) the worship of stars as gods; (2) divination by stars, or astrology; and (3) stars as timekeepers. 1. The worship of astronomical objects as gods is quite old and widespread. Babylonian worship of the sun ...

Future Directions for Astronomy at MSU The lab The rest

... – Metallicity distribution of halo stars. – Kinematics of thick disk and ...

Chapter 3 - BITS Pilani

... showed that the luminosity of a blackbody ...

APO WIRO

... previously been a binary star system with an exponentially decreasing orbital period. To learn why such mergers occur, we need to study a binary just before it explodes, something that has never been done. Last summer our group identified the binary KIC 9832227 as a merger candidate based on observe ...

–1– 28. HIGH-MASS STAR FORMATION: THEORY 28.1. The Effects

... whereas high-mass stars generally have tKH . t∗f (Kahn 1974). For example, for m∗ = 31M¯ , we have R∗ = 9.3R¯ and L∗ = 105.24 L¯ (Sternberg et al. 2003), corresponding to tKH = 18, 000 yr; as we shall see below, the formation time for such a star is of order 10 5 yr. As a result, whereas low-mass st ...

Newly discovered Earth-sized planets suitable for life? By Los

... Astronomers have discovered three Earth-sized planets orbiting a small red sun, just 40 light-years away. They say all three worlds are potentially suitable for life. The planets could represent the best targets yet in the search for life beyond the solar system. The planets are not massive, hot, su ...

High Energy Processes in Young Stellar Objects

... • If X-ray emission begins in the earliest Class 0 phase, then YSO ionization may crucially affect the gravatational collapse of star formation • X-ray emission is prevalent in the Class I-II phases, Xray ionization is quite likely to play a central role in the astrophysics and evolution of the circ ...

AST 207 Homework 4 Due 7 October 2011

... b. (2 pts.) What is the mass of Nus compared with the mass of the Sun? c. (2 pts.) What is the period of Sram’s orbit? 2. The distance to star A is 3.4 pc, and its coordinates are 15 hr + 0°. Star B is much farther away, and its coordinates are 15 hr + 0°. For this problem, assume the orbit of the e ...

Our Star the Sun

... process by which two or more atoms are joined together or fused to form a larger more massive element. ► In the case of the Sun…. Hydrogen (H) atoms are fused together to form helium (He). ► During this process a lot of energy is produced and released. ...

Here

... protons) combine to form 1 helium nucleus (which has two protons and two neutrons). • The details are a bit complex:  In the Sun, 6 hydrogen nuclei are involved in a sequence that produces two hydrogen nuclei and one helium nucleus. This is the proton-proton chain.  In more massive stars, a carbon ...

What`s in the Night Sky?

... tudents know that when they look at the night sky they can see stars and the moon. They may not know that sometimes they can also see planets, meteorites, and comets. On a clear dark night, away from city lights, it is possible to see about 2,000 stars. With the help of a telescope, many thousands m ...

Where Stars Are Born

... 1. What is the composition of interstellar gas? Of interstellar dust? 2. If space is a near-perfect vacuum, how can there be enough dust in it to block light? 3. What is an emission nebula? 4. How is interstellar dust detected? 5. Why is dust found in the neighborhood of some stars (as in the Pleiad ...

Supernova scrutiny: Astronomers look inside the heart of a dying

... describing the trails of titanium-44 that have been newly mapped. These observations have helped astronomers rule out previous theories about how stars explode, but NuSTAR’s measurements have also raised further questions. The astronomers found that the map of titanium-44 recorded by the telescope d ...

X-ray studies of star and planet formation Eric Feigelson

... Near- and mid-infrared surveys can readily detect photospheres of the full IMF, including proto-brown dwarfs, out to 1-2 kpc. But, except in the closest star forming regions (e.g. Taurus, Orion), the fields are very badly (factors ~ few-100) contaminated by Galactic field stars. Chandra is typically ...

Cosmic distance scale

... The mean magnitude is typically very bright: MV  6 so they can be seen at very large distances (Henrietta Leavitt was working on a cluster of stars in the Small Magellanic Cloud). Measuring P provides MV, which gives distance via the distance modulus. This is especially important for calibrating e ...

Gemini = برج الجوزاء (May 22

... Athens; according to this tale, he invented a chariot that was drawn by four horses. • Capella is one of the few bright stars that is yellow, like our Sun. Both Capella and the Sun are yellow because they have roughly the same surface temperature. • But the light from Capella actually comes from two ...

April Skies

... The Constellation Leo the Lion – Now here is a constellation that really does look like what’s it’s supposed to be. This constellation was recognized and worshiped as a lion by the ancient Egyptians as the sun was in this part of the sky at the time of year when the Nile River flooded. Indians also ...

ppt - ciera

... fields reveals no new 530 s pulsars, so there is a <0.5% chance of finding a magnetar in any field (Nechita, Gaensler, Muno, et al. in prep). • The pulsar is well within the cluster, with a <10% chance of being an unrelated X-ray source. ...

Space - Milky Way

... 6. Why is our galaxy called the Milky Way? a. Because of its dense, fluid center b. It's a translation of an ancient name for "galaxy" c. Because it's relatively homogeneous d. Because it looks hazy and milky from Earth 7. How is the center of the Milky Way different from the arms? a. The center is ...

Astro Review - Blank - Mayfield City Schools

... 3. Describe the size of stars in the H-R diagram (in comparison with the sun) in the upper left portion: a. much larger b. somewhat larger c. the same size d. somewhat smaller e. much smaller 4. Describe the color of the stars in the upper left portion of the H-R diagram. a. redder b. about the same ...

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Main sequence

In astronomy, the main sequence is a continuous and distinctive band of stars that appears on plots of stellar color versus brightness. These color-magnitude plots are known as Hertzsprung–Russell diagrams after their co-developers, Ejnar Hertzsprung and Henry Norris Russell. Stars on this band are known as main-sequence stars or ""dwarf"" stars.After a star has formed, it generates thermal energy in the dense core region through the nuclear fusion of hydrogen atoms into helium. During this stage of the star's lifetime, it is located along the main sequence at a position determined primarily by its mass, but also based upon its chemical composition and other factors. All main-sequence stars are in hydrostatic equilibrium, where outward thermal pressure from the hot core is balanced by the inward pressure of gravitational collapse from the overlying layers. The strong dependence of the rate of energy generation in the core on the temperature and pressure helps to sustain this balance. Energy generated at the core makes its way to the surface and is radiated away at the photosphere. The energy is carried by either radiation or convection, with the latter occurring in regions with steeper temperature gradients, higher opacity or both.The main sequence is sometimes divided into upper and lower parts, based on the dominant process that a star uses to generate energy. Stars below about 1.5 times the mass of the Sun (or 1.5 solar masses (M☉)) primarily fuse hydrogen atoms together in a series of stages to form helium, a sequence called the proton–proton chain. Above this mass, in the upper main sequence, the nuclear fusion process mainly uses atoms of carbon, nitrogen and oxygen as intermediaries in the CNO cycle that produces helium from hydrogen atoms. Main-sequence stars with more than two solar masses undergo convection in their core regions, which acts to stir up the newly created helium and maintain the proportion of fuel needed for fusion to occur. Below this mass, stars have cores that are entirely radiative with convective zones near the surface. With decreasing stellar mass, the proportion of the star forming a convective envelope steadily increases, whereas main-sequence stars below 0.4 M☉ undergo convection throughout their mass. When core convection does not occur, a helium-rich core develops surrounded by an outer layer of hydrogen.In general, the more massive a star is, the shorter its lifespan on the main sequence. After the hydrogen fuel at the core has been consumed, the star evolves away from the main sequence on the HR diagram. The behavior of a star now depends on its mass, with stars below 0.23 M☉ becoming white dwarfs directly, whereas stars with up to ten solar masses pass through a red giant stage. More massive stars can explode as a supernova, or collapse directly into a black hole.

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Main sequence