Mountain Skies March 21 2016

... The stars: While the bright stars of winter continue to dominate the southern sky in the early evening, turn around and look to the north, specifically the northeast. Here, low in the sky we find the familiar pattern of the Big Dipper. It’s still not late enough in the year to see it high in the nor ...

Answer - OKBU.net

... • What is the relationship between earth's equator & the celestial equator? __the CE is just the extension of earth’s eq into space • Does the celestial equator always intersect the horizon at due east and due west? __yes • Is celestial equator always perpendicular to earth's axis & the north celest ...

Cosmic Samples & Origin of Solar System

... hydrogen and helium) to the Sun and other stars The other planets are lacking in hydrogen and helium The inner planets are metal rich, then farther out are rocky objects, and furthest out are icy bodies The general chemical pattern can be interpreted as a temperature sequence: hot near the Sun and c ...

leo 1. episode 1

... The names of extra-solar planets are derived by using the name of the star they orbit followed by a number indicating the planet’s position in order of distance from said star. Thus, planet Aldebaran-4 is the fourth planet of the star Aldebaran. Aldebaran-4 being the only habitable planet of the sys ...

Opposition of Jupiter - Hong Kong Observatory

... position of Jupiter on the celestial sphere, and matched to the 12 Earthly Branches. So Jupiter is also known as the Age Star. Opposition of Jupiter will occur about once every 399 days. The last Jupiter opposition was on 4 March 2004. Jupiter is the second brightest planet after Venus. A few week ...

8origin4s

... material, acquire large gas envelopes 3 Edge of solar system -- leftover and ejected icy planetesimals form Kuiper belt and Oort cloud ...

File - SMIC Physics

... Supergiants and Supernovas • Stars more than 8x massive than Sun → evolution occurs more quickly and more violently • Massive stars → core heats up to higher temps → heavier elements form by fusion (becoz higher temp is needed to fuse bigger elements. Eg : He → C needs higher temp) → star expands i ...

My Moon: Moon Phases - University of Louisville

... record on Earth, other objects in the solar system, such as lunar rocks, asteroids, and meteorites, have changed little over billions of years. Studying these objects can provide information about Earth’s formation and early history. (HS-ESS1-6) ● An object can be seen when light reflected from its ...

Slide 1

... Before October 6, 1923, astronomers thought the Andromeda Nebula and similar objects were bright pockets of matter inside the Milky Way. On that day astronomer Edwin Hubble noticed, looking at the photograps, a particular type of star inside the Andromeda Nebula. Hubble realized that the star (Ceph ...

Our Star - the Sun

... apparent shift of a star against the background stars observed as the Earth moves along its orbit Parallax measurements made from orbit, above the blurring effects of the atmosphere, are much more accurate than those made with Earth-based telescopes Stellar parallaxes can only be measured for stars ...

Can we prove God Exists? Part 1 How can modern science help us

... During the last decade cosmology/astronomy has become increasingly friendly to the Creator model. Discoveries about the origin of the Big Bang as well as the requirements for life on a planet like earth reveal more and more the hand of a Creator and make it less and less likely this could all have h ...

ISP 205 Visions of the Universe • Instructor: Dr. Jack Baldwin

... 100x the real distance to the moon! ...

RED “O Big Red

... the star burns up all its hydrogen, like a car running out of gas. When this happens, the star expands outward. it can grow to one hundred times its starting diameter! the star is now a red giant. it has a life span of “only” a few million years. someday, our sun will run out of hydrogen and become ...

Astronomy Study Guide and Key Astronomy Study Guide

... How do the relative sizes of the outer planets (Jupiter out) and the inner planets (Mars in) contrast? The object that the planets all orbit around is the: Draw a diagram that roughly shows the relative distances of the 8 planets from the Sun. How many stars are there in our Solar System? C Explain ...

ppt - Earth and Space Sciences at the University of Washington

... (99.8% of mass of solar system) • Density: 1.41 (water = 1) • Composition (by mass): Hydrogen: 73%, Helium: 25%, ...

Volcanoes and Igneous Activity Earth

... Earth must be 50 times the distance between these two cities by finding that the angles of the noonday sun between the two cities differed by 7 degrees or 1/50th of a circle. ...

AST 207 Test 2 Answers 20 October 2010

... 2. (4 pts.) Prof. Balter Adams of the University of Michigan found two stars, A and B, that are very close together in the sky in the constellation Canis Major. He determined the spectral classes of the two stars and found them to be the same. Star B is 15 magnitudes fainter than star A. Prof. Adams ...

Slide 1

... A galaxy is a collection of billions of stars, plus gas and dust, held together by gravity. There are billions of galaxies in the universe. ...

Chapter 25 - Notes Super Size

... » Depending on the mass of the core, one of the _________________ will occur: 1.) _________________ Star- smaller cores will produce a dense core of neutrons about 20km in diameter. 2.) Black Hole- larger cores will collapse to a super dense _________________. The gravity near this mass is so strong ...

MLAwiki

... Chapter 4 Outline 2. Asteroid __________- region between Mars and Jupiter where most asteroids orbit the sun a. As many as a million asteroids make up this belt orbiting the sun b. Not all of these asteroids stay in their orbits c. Sometimes asteroids are pulled out of orbit by the gravity of other ...

PowerPoint Presentation - Small Bodies in the Solar System

... more often.  Over time, the # of asteroids in the path of the Earth decreased and collisions become less frequent. ...

AST 220 Introduction to Astronomy

... Homework and online exercises E. Comprehensive final (on campus) F. A laboratory grade will be assigned based on successful completion of the assigned experiments. The lab grade will be equivalent to a regular test. G. Grades will be given based upon A = 90 – 100%, B = 80 – 89%, C = 70 – 79%, D = 60 ...

Rusty Rocket`s Last Blast

... Vocabulary ammonia asteroid atmosphere carbon dioxide Cassini composition core extreme Galileo gravity helium hydrogen launch pad methane microgravity Moon moon orbit planet poisonous radiation rings rocket spacesuit sulfur sulfuric acid toxic volcanoes ...

SPECIAL REPORT

... results. All agree that Earth, Mercury, Venus, and Mars — the so-called terrestrial planets — formed as progressively larger rocky bodies banged together. But theories now in vogue have trouble accounting for the solar system’s massive gas giants, Jupiter and Saturn. That’s a problem because most of ...

Lecture 3 - Night Sky and Motion of the Earth around the Sun

... Angular Measure for Small Angles 1º = 60 arcminutes = 60′ 1′ = 60 arcseconds = 60″ e.g., On January 1, 2004, the planet Saturn had an angular diameter of 19.7″ as viewed from Earth. ...

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Planetary habitability

Planetary habitability is the measure of a planet's or a natural satellite's potential to develop and sustain life. Life may develop directly on a planet or satellite or be transferred to it from another body, a theoretical process known as panspermia. As the existence of life beyond Earth is unknown, planetary habitability is largely an extrapolation of conditions on Earth and the characteristics of the Sun and Solar System which appear favourable to life's flourishing—in particular those factors that have sustained complex, multicellular organisms and not just simpler, unicellular creatures. Research and theory in this regard is a component of planetary science and the emerging discipline of astrobiology.An absolute requirement for life is an energy source, and the notion of planetary habitability implies that many other geophysical, geochemical, and astrophysical criteria must be met before an astronomical body can support life. In its astrobiology roadmap, NASA has defined the principal habitability criteria as ""extended regions of liquid water, conditions favourable for the assembly of complex organic molecules, and energy sources to sustain metabolism.""In determining the habitability potential of a body, studies focus on its bulk composition, orbital properties, atmosphere, and potential chemical interactions. Stellar characteristics of importance include mass and luminosity, stable variability, and high metallicity. Rocky, terrestrial-type planets and moons with the potential for Earth-like chemistry are a primary focus of astrobiological research, although more speculative habitability theories occasionally examine alternative biochemistries and other types of astronomical bodies.The idea that planets beyond Earth might host life is an ancient one, though historically it was framed by philosophy as much as physical science. The late 20th century saw two breakthroughs in the field. The observation and robotic spacecraft exploration of other planets and moons within the Solar System has provided critical information on defining habitability criteria and allowed for substantial geophysical comparisons between the Earth and other bodies. The discovery of extrasolar planets, beginning in the early 1990s and accelerating thereafter, has provided further information for the study of possible extraterrestrial life. These findings confirm that the Sun is not unique among stars in hosting planets and expands the habitability research horizon beyond the Solar System.The chemistry of life may have begun shortly after the Big Bang, 13.8 billion years ago, during a habitable epoch when the Universe was only 10–17 million years old. According to the panspermia hypothesis, microscopic life—distributed by meteoroids, asteroids and other small Solar System bodies—may exist throughout the universe. Nonetheless, Earth is the only place in the universe known to harbor life. Estimates of habitable zones around other stars, along with the discovery of hundreds of extrasolar planets and new insights into the extreme habitats here on Earth, suggest that there may be many more habitable places in the universe than considered possible until very recently. On 4 November 2013, astronomers reported, based on Kepler space mission data, that there could be as many as 40 billion Earth-sized planets orbiting in the habitable zones of Sun-like stars and red dwarfs within the Milky Way. 11 billion of these estimated planets may be orbiting Sun-like stars. The nearest such planet may be 12 light-years away, according to the scientists.

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Planetary habitability