Grade 7 Science

... likely to have said each statement. Write your answer in the space provided. 1. _____________________ ―I’ve finally worked out an explanation as to why planets orbit the sun and moons orbit planets. It is gravity that keeps an object in orbit!‖ 2. _____________________ ―The Earth is the center of th ...

tremaine_stanford

... • Galactic tidal forces (fractional effect < 10-13) Unknown small corrections include: • asteroids (< 10-9) and Kuiper belt (< 10-6 even for outermost planets) •mass loss from Sun through radiation and solar wind, and drag of solar wind on planetary magnetospheres (< 10-14) 1 AU = 1 astronomical uni ...

20081 Study Guide_77-120

... Similarly, astronomers detect black holes by their gravitational effects on nearby stars, gas, or dust. ...

Planetarium Lab 1

... • What is the relationship between earth's equator & the celestial equator? __the CE is just the extension of eath’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 celesti ...

A Absolute Magnitude A scale for measuring the actual

... The speed required for an object to escape the gravitational pull of a planet or other body. Event Horizon The invisible boundary around a black hole past which nothing can escape the gravitational pull - not even light. ...

Homework #3 MHC Astronomy 100/101/110 Prof. Stage For ALL the

... is a graph of luminosity vs. time. Consider Wien’s law. Answers should not be numerical, e.g., “50 solar luminosities at this time”, but should show qualitatively what is going on.) 7. (4pts) How many times greater is the Earth’s gravitational force on the Moon than the Moon’s gravitational forc ...

Lecture 13: The stars are suns

... • Connection between the sun and the stars: Stars are fusion reactors like our sun, with similar physical properties. Spectroscopes, atomic theory, and especially measurements of stellar distances (1838) made it possible for astronomers to derive properties of stars and establish the Sun-stellar con ...

Exhibit Scavenger Hunt - Friends of the Observatory

... Most of the craters that we see on the Moon are very old. Most of the old craters on Earth have been erased by weather, oceans, plant life, volcanoes and plate tectonics. Today there isn’t as much stuff in the solar system to make many new craters. And Earth’s atmosphere burns most material up befor ...

word document - FacStaff Home Page for CBU

... These are related to the birth and death of stars considered above and will be important when we consider galaxies and the universe in Part 5. In Section E we try to first of all categorize all the different types of stars. We then try to relate these categories into an evolutionary scheme for stars ...

History of Astronomy

... c) The geocentric model couldn’t account for day and night. d) The Earth revolved around the Sun. e) The Sun orbited Earth. ...

Practice Assessment Answers

... 3. What would happen to the magnitude of the gravitational force between two bodies if: a. the mass of one of the bodies were doubled? The gravitational force between them would be doubled. b. the distance between the two bodies were doubled? The gravitational force between them would be one-fourth ...

Teacher Sheet 1. What variables does the HR Diagram compare

... 14. Describe stars A, B, C, and D in terms of their brightness and temperature. Star A is red and therefore, cool. Its luminosity is 1/1000 of that of the sun; therefore, it is dim. Star B is a hot, blue star and very luminous. Both A and B are on the Main Sequence. Star C is also a hot, blue star. ...

Welcome to Our Universe!

... • Closest planet to the size of Earth • Has a thick mantle and iron core • Much drier than Earth and atmosphere is 90% more dense • Hottest planet  Over 400⁰C • No moons • Terrestrial Planet • 7,521 miles in diameter ...

November 2013 - Pomona Valley Amateur Astronomers

... The most volcanically active place is out-of-this-world! Volcanoes are some of the most powerful and destructive natural phenomena, yet they're a vital part of shaping the planetary landscape of worlds small and large. Here on Earth, the largest of the rocky bodies in our Solar System, there's a tre ...

High School Science Proficiency Review #2 Earth Science

... 12. What can we conclude from the observation that nearly C. Some types of electromagnetic radiation from stars are all galaxies are moving away from us? absorbed by Earth’s atmosphere. A. The once‐smaller universe is expanding in all direc‐ D. Some of the light being sent out from telescopes ...

PowerPoint Presentation - msharnack

... What is the best observation that can be made? A. The Sun is larger than Earth. B. The Sun is larger than Jupiter. C. All of the planets are smaller than the Sun. D. All of the planets are larger than the Sun. ...

Page 1 Astronomy 110 Homework #08 Assigned: 03/13/2007 Due

... Directions: Listed below are twenty (20) multiple-choice questions based on the material covered by the lectures thus far. Choose the correct response from those listed, along with at least a one (1) sentence justification for your answer. Alternate justification techniques include math calculations ...

Day 3

... •  However, about 1/3 of the hot Jupiters do have a hot upper atmosphere, and we still don’t know ...

Phys133-Sample MT2

... 10) Compared to the star it evolved from, a red giant is A) cooler and brighter. B) hotter and brighter. C) hotter and dimmer. D) the same temperature and brightness. E) cooler and dimmer. ...

Transit of Venus

... and Venus ) of the solar system. • Inferior planets are those which orbit the Sun inside the Earth's orbit. • When Mercury or Venus passes between us and the sun, we ...

Evolution of Stars and Galaxies

... If supernova core is 3 or more times as massive as Sun core will collapse  Not even light can escape  An event horizon anything crossing this will go (region nothing can escape)  Other stars orbit around it as usual ...

September 2015 - Hermanus Astronomy

... The study involves many of the world's most powerful telescopes, including the European Southern Observatory's VISTA and VST survey telescopes at the Paranal Observatory in Chile. Supporting observations were made by two orbiting space telescopes operated by NASA, GALEX and WISE, and another belongi ...

Wizard Test Maker

... point A and at point D. 3) The orbital velocity of the Earth at point A equals its orbital velocity at point C. 4) The gravitational force between the Earth and the Sun at point B is the same as the gravitational force at point D. ...

Star Formation

... Helium (in core) begins to fuse into Carbon (basic element of life) (H-burning shell adds more He to core) ...

bYTEBoss lesson 3 life of star

... Plenary: What is the correct order for these sentences about how a star is formed? This causes the ‘nebula’ to collapse. ...

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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