Space Revision Answers File

... Rocky Planets: Mercury, Venus, Earth, and Mars Gas Giants: Jupiter, Saturn, Uranus, and Neptune Dwarf Planets: Ceres, Pluto, and Eris 2. What are the four different types of galaxy shapes? Also define ‘galaxy’ The four different types of galaxy shapes are spiral, elliptical, lenticular, and irregula ...

Final Exam Review (Word doc)

... d) the Doppler shift. 29. A full moon can never rise at midnight. 30. From Earth, Mercury is difficult to see mostly because it always appears near the Sun. 31. Synchrotron radiation is produced by electrons moving rapidly (whirling) in a magnetic field. 32. One way in which Uranus is peculiar becau ...

The Sun and planets

... and does not get dispersed in space thanks to the state of balance between the gravitational and pressure forces which are of equal intensity but act in opposite directions. Being made of gas, our star does not have a solid surface; we can think of the Sun as an enormous onion made of concentric lay ...

SUMMARY The Earth is one of eight planets orbiting the Sun, and

... The Earth is one of eight planets orbiting the Sun, and the Sun is one of about a hundred billion stars that make up the Milky Way Galaxy. The Milky Way, two other similarsize galaxies, and dozens of smaller galaxies compose the Local Group, which in turn is part of?the Local Supercluster of galaxi ...

Worksheet 1

... a. Venus, Jupiter, and Neptune b. Mercury, Venus, and Pluto c. Mercury, Venus, and Earth d. Jupiter, Saturn and Uranus e. Mercury, Saturn, and Pluto 23. One explanation of why the planets near the Sun are composed mainly of rock and iron is that a. The Sun’s magnetic field attracted all the iron in ...

C472 Continuous Assessment: Essay #2

... fermentation to redox reactions, and it can be assumed that these mechanisms can also be in place on other planets, so the necessary reactants would have to be present. The third major vital consideration is the existence of a medium in which chemical reactions can occur, the terrestrial version bei ...

Rotation & revolution

... Earth’s rotation causes celestial objects to appear to move from east to west in Northern Hemisphere ...

Explaining Apparent Retrograde Motion

... solar system (planetary distances in AU) But . . . • The model was no more accurate and not any simpler than the Ptolemaic model in predicting planetary positions, because it still Copernicus (1473-1543) ...

Scaling the SEM reading

... Scaling the Sun-Earth-Moon System Earth’s Moon The Moon’s age is estimated to be between 4.3 billion and 4.5 billion years. There are many theories about how the Moon was formed. Some astronomers think the Moon may have been formed when a Mars-sized asteroid collided with Earth about 100 million to ...

New science on the young sun, and Earth migration

... the light of extrasolar planet research, astronomers do not consider it outside the realm of possibility to propose that a planet could have existed in our own system that is no longer present today. Still, this requires believing in a planet for which there is no observational evidence. Moreover, t ...

Science Model answer Revision sheet Q3

... 1-Multiple Choice: 1. Which tool measures wind direction? A. ...

`Sun, shine! Moon, glow! Stars, twinkle!` Day 4

... place, with no atmosphere and no water, and huge extremes of temperature. It orbits (circles around) Earth every 29½ days. In the days before modern calendars, farmers would count the number of new moons to work out the right time to plant their crops. (In some parts of the world today, farmers stil ...

Practice Problems for Test 2 1. Momentum may be expressed in: A

... 23. To measure the mass of a planet with the same radius as Earth, an astronaut drops an object from rest (relative to the planet) from an altitude of one radius above the surface. When the object hits its speed is 4 times what it would be if the same experiment were carried out for Earth. In units ...

A R T I C L E S

... components, such as nitrogen, are comparable. A straightforward application of the “solar nebula” hypothesis would have predicted similar argon concentrations for both planets, since they were supposed to have been condensed out of the same nebula at close proximity. To account for the actual findin ...

Quiz 1 Review, Astronomy 1144 - astronomy.ohio

... 1. Law of Inertia: A body either stays at rest or moves in a straight line unless acted upon by an external force. Mass is a measure of this inertia. 2. Law of Acceleration: For a given mass, its acceleration is proportional to the force applied F = ma. More massive objects are more resistant to acc ...

Lecture 1

... what does U see on the wall? 1. Beam traces a line from left to right 2. Beam does not move 3. Beam traces a line from right to left ...

Winter solstice, 2016 - NRC Publications Archive

... The seasons, solstices and equinoxes are all a consequence of the orientation of the Earth’s axis. Imagine the Earth moving around the Sun, spinning as it goes, like a spinning top on a plate. One thing we notice with spinning tops is that if they are not vertical, they do a circular wobble. The Ear ...

File

... Giant ball of swirling gas Has 16 Moons Has two very thin rings Has a large red spot, which is a giant storm ...

Report - WordPress.com

... The stability of civil engineering structure is considerably increased if the geological feature like faults, joints, bedding planes, folding solution channels etc. in the rock beds are properly located and suitably treated. ...

Earth is the third planet from the Sun. It is a rocky planet and the fifth

... Winters on neptune last for about 40 years! ...

Document

... • Seasons are not caused by how close the Earth is to the sun. • In fact, the Earth is closest to the sun around January 3 and farthest away from the sun around July 4. ...

Rotation - Cloudfront.net

... body on its axis  Revolution – the motion of a body, such as a planet or moon, along a path around some point in space  Precession – the slight movement, over a period of 26,000 years, of Earth’s axis ...

Life in the Universe

... • Mars had liquid water in the distant past. • Mars still has subsurface ice—possibly subsurface water near sources of volcanic heat. ...

Science Grade 5 Date: March 21, 2014 ET Topic: Composition a

... Compare and contrast characteristics of celestial bodies found in the solar system (e.g., planets, moons, asteroids, comets, meteors, meteoroids, meteorites, inner and outer planets). 3.3.5.A3. -- Essential EARTH'S HISTORY - Explain how geological processes observed today such as erosion, movement o ...

Earth Does Not Move, The (Shigeharu

... years. ...

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Comparative planetary science

Comparative planetary science or comparative planetology is a branch of space science and planetary science in which different natural processes and systems are studied by their effects and phenomena on and between multiple bodies. The planetary processes in question include geology, hydrology, atmospheric physics, and interactions such as impact cratering, space weathering, and magnetospheric physics in the solar wind, and possibly biology, via astrobiology.Comparison of multiple bodies assists the researcher, if for no other reason than the Earth is far more accessible than any other body. Those distant bodies may then be evaluated in the context of processes already characterized on Earth. Conversely, other bodies (including extrasolar ones) may provide additional examples, edge cases, and counterexamples to earthbound processes; without a greater context, studying these phenomena in relation to Earth alone may result in low sample sizes and observational biases.

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Comparative planetary science