HotJup

... The ClC(O)OO, the key to Venus chemistry, identified. Improved chemistry can explain the low O2 of Venus Yung and DeMore (1982) vindicated Can study other reactions involving ClC(O)OO Can look for ClC(O)OO on Venus Venus, the ultimate fate of all terrestrial planets ala Ingersoll 1969 --- testable h ...

Section 2 - TeacherWeb

... Section 3: The Earth System Earth’s Four Spheres • Atmosphere—Envelope of gases surrounding Earth; least dense and outermost sphere • Lithosphere—Solid crust of the planet; forms continents, islands, and ocean floor • Hydrosphere—Earth’s water; 70 percent of Earth’s surface, including water in liqui ...

Export To Word

... storm) predict that it should have disappeared long ago, and so Jupiter's Long- Lasting Storm its continued existence puzzles scientists. A new study that considers the vertical winds within the storm is able to explain why the spot has existed for over 200 years, and could even continue for hundred ...

The Solar System - Wayne State University

... its internal heat Thus, it is more likely to see surface evidence of geological activity on the larger planets/satellites The terrestrial planets appear to conform to this expectation Mercury and our Moon are geologically dead Earth and Venus are still geologically active Mars represents an intermed ...

Geology Introduction Assessment Give questions at beginning of

... 15. The map shows the position of the Earth’s continents and oceans today. Which of the following best explains why the ocean basins look the way they do? A. Meteor impacts caused the ocean basins to form this way B. The ocean basins formed in cracks that were created as the whole Earth heated after ...

Student 1

... the east coast of Australia when New Zealand was still part of Australia. These volcanic rocks have been dated as they give the youngest age of the Southland syncline. ...

I. Comparing the Sizes of the Sun, Earth, Moon and Jupiter

... II. Comparing Earth size to other Universe Components When examining universe components and their sizes, scientists use the Earth size as a frame of reference instead of the sun due to its enormous size. Scientists question how many times bigger or smaller is a given object in space when compared t ...

Name - reynardearthsci

... 29. Construct a topographic profile along line DE by plotting an X for the elevation of each contour line that crosses DE. Connect the X’s with a smooth, curved line to complete the profile. D and E have already been done for you. ...

Extra-Solar Planets

... – what are they like? – what kinds of stars have planets? ...

PHASES OF THE MOON

... Jupiter Saturn Uranus Neptune Pluto The Inner Planets are Mercury, Venus, Earth, Mars. They are called the Rocky planets. The outer planets are Jupiter, Saturn, Uranus, Neptune, Pluto. They are the Gas planets. The inner and outer planets are separated by the Asteroid Belt between Mars and Jupiter. ...

Earth takes 365.24 days.

... • Most of them also rotate in an eastward direction, but three of them (Venus, Uranus and Pluto) rotate to the west. ...

Final Revision

... A. a group of stars B. a star and the planets near it C. the planets, moons, and asteroids around a star D. a star and all the bodies that revolve around it ____ 25. There are eight planets in the solar system. Which is true of all planets? A. They have satellites. B. They rotate on their axes. C. T ...

A Brief History of Planetary Science

... Moons ...

Word doc - UC-HiPACC - University of California, Santa Cruz

... to farther than a solar radius above the Sun’s surface: when all the planets are on the same side of the solar system as Jupiter, the barycenter is farther from the center of the Sun toward Jupiter than it is when all the planets are on the opposite side of the solar system from Jupiter. In other wo ...

Lunar eclipses

... The moon often does not totally disappear during a total lunar eclipse. Instead it can be seen as a very dark red color because of the refraction of sunlight through the Earth's atmosphere. ...

Presentation1[1]

... 4 Mercury orbits =1 Earth year! ...

PHASES OF THE MOON

... Distance from Sun (Millions of Km) Period of revolution Diameter (km) Atmosphere ...

2. Answer Key Practice Test, Topic 3

... Jupiter, Saturn, Neptune, Uranus Uranus, Neptune, Saturn, Jupiter Jupiter, Saturn, Uranus, Neptune Neptune, Uranus, Saturn, Jupiter ...

Planet Profile for Uranus

... -It has as many as 39 or more moons, however only sixteen of them have been named and agreed upon. -It has a faint ring. -Jupiter’s power of gravity is so strong it grabs on to objects that come too close. -Atmospheric composition is 90% Hydrogen and 10% Helium. - The Red Spot is a hurricane. It is ...

Slide 1

... He says: neither we nor our planet should be special.. Or othe civilization may exist capable of space travel Is there a civilization who has colonized the galaxy already? The paradox is that we face two contradictory ideas: We rare not special We should be surrounded by evidence of these civilizati ...

The Universe Starring Man? The Impact of Scientific

... • In fact all the evidence is compatible with both theories • Nonetheless 3 pieces of evidence in particular were – rightlytaken to indicate that the Ptolemaic theory was false. • Order of the planets • Planetary stations and retrogressions • Bounded elongation of Mercury and Venus ...

Planetary Debate - TXESS Revolution

... The objectives of the activity are to: (1) Identify the distinguishing characteristics of each planetary body. (2) Explore differences among the different planetary bodies, and between the other planetary bodies in our solar system and Earth. (3) Gain in-depth knowledge on their assigned planetary b ...

Chapter10

... for the origin of Mercury’s massive iron core looks very much like the giant impact model for the origin of the Moon (Figure 9.29). Given the wide ranges of mass ratios of impacting body to planet, impact velocities, and impact parameter a wide variety of outcomes of the impact is possible. 2. Venus ...

Solar System Scale Activity

... b. What are the planets of our Solar System? 3. Write the name of the object in the crease, if there is one? 4. Write the name of the planets in order and in their relative distances from each other down the strip of paper. 5. Go on-line to see the relative distances from one planet to the next. 6. ...

printer-friendly sample test questions

... 1st Item Specification: Recognize the difference between moons, asteroids, and comets. Depth of Knowledge Level 1 1. Each of the following are objects found in our solar system EXCEPT A. quasars. B. comets. C. asteroids. D. planets. 2. Planets known to have rings include each of the following EXCEPT ...

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Late Heavy Bombardment

The Late Heavy Bombardment (abbreviated LHB and also known as the lunar cataclysm) is a hypothetical event thought to have occurred approximately 4.1 to 3.8 billion years (Ga) ago, corresponding to the Neohadean and Eoarchean eras on Earth. During this interval, a disproportionately large number of asteroids apparently collided with the early terrestrial planets in the inner Solar System, including Mercury, Venus, Earth, and Mars. The LHB happened after the Earth and other rocky planets had formed and accreted most of their mass, but still quite early in Earth's history.Evidence for the LHB derives from lunar samples brought back by the Apollo astronauts. Isotopic dating of Moon rocks implies that most impact melts occurred in a rather narrow interval of time. Several hypotheses are now offered to explain the apparent spike in the flux of impactors (i.e. asteroids and comets) in the inner Solar System, but no consensus yet exists. The Nice model is popular among planetary scientists; it postulates that the gas giant planets underwent orbital migration and scattered objects in the asteroid and/or Kuiper belts into eccentric orbits, and thereby into the path of the terrestrial planets. Other researchers argue that the lunar sample data do not require a cataclysmic cratering event near 3.9 Ga, and that the apparent clustering of impact melt ages near this time is an artifact of sampling materials retrieved from a single large impact basin. They also note that the rate of impact cratering could be significantly different between the outer and inner zones of the Solar System.

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Late Heavy Bombardment