Astronomy Daystarter Questions

... Jupiter was first seen clearly (and its moons) by ...

exam_1fall_01

... C. it is about 2 AM D. it is about 4 AM E. it is about 6 AM 19. Mercury is best described as A. the planet most like Earth. B. having a very heavily cratered surface. C. being primarily composed of light gases. D. having a surface covered with volcanoes. E. a place that shows evidence of water erosi ...

Solar System Bead Distance Primary Audience

... Solar System using astronomical units that have been converted into a 10-centimeter scale. Keywords: Distance, AU, space Concepts: • Astronomical Unit - 1 AU = approximately 150 million kilometers (93 million miles) Materials: • Per Participant: o Planet Beads: Sun (yellow) Mercury (red) Venus ...

The wonders of our universe

... Our sun is getting hotter. In one billion years’ time, the Earth will become too hot for water to exist, and all life will end. Our sun will continue to burn until it uses all its supply of hydrogen. In five billion years’ time it will expand, then explode and become a red giant. After that it will ...

Section 22.2 The Earth-Moon-Sun System

... Motions of Earth  The two main motions of Earth are rotation and revolution. Precession is a third and very slow motion of Earth’s axis. Rotation Rotation is the turning, or spinning, of a body on its axis. Two measurements for rotation:  Mean solar day is the time interval from one noon to the ne ...

Our Solar System - Mrs. Carter

... Mars is the fourth planet from the Sun. It is known as the red planet because of large amounts of rust-colored dust on its surface. Mars is the most Earth-like of all the planets of our Solar System. Mars has seasons similar to our own, and the soil there is similar to the soil on Earth. But there i ...

Our Solar System LEVELED BOOK • S www.readinga-z.com

... Mars is the fourth planet from the Sun. It is known as the red planet because of large amounts of rust-colored dust on its surface. Mars is the most Earth-like of all the planets of our Solar System. Mars has seasons similar to our own, and the soil there is similar to the soil on Earth. But there i ...

1 Chapter 2 - University of Minnesota

... 1) Except for a truly negligible precession, the direction of the earth’s rotation axis remains fixed in space, providing us with an invaluably constant frame of reference. 2) The earth’s rotation axis is used to define the north and south celestial poles, and also the celestial equator. 3) The nort ...

The Earth in Motion

... sun to be higher or lower in the sky. a. Summer – sun rises higher, takes longer to set, longer daylight hours, shorter shadows b. Winter – sun rises lower, takes less time to set, shorter daylight hours, longer shadows ...

What part of the sun can we see only during a solar eclipse?

... False- Not the distance from the sun, but the tilt of the earth and whether the light hits it ...

click here for scale model worksheet

... Scale Model of Solar System: If the Sun was the size of a basketball, then…. ...

Lecture 1: The Scale of the Cosmos - Ohio

... • Tech Depot staff will be available to toruble-shoot clickers (if necessary) and replace batteries for free. ...

Mysteries Of Space

... Do not be mistaken ,the planets are not in a straight line.The opposite in fact. The order of the planets from the Sun are Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune. In between these amazing planets are dwarf planets such as Pluto, Ceres, Makemake, Haumea and Eris. A dwarf pla ...

1 Chapter 1 1-1. How long does it take the Earth to orbit the Sun? a

... 1-19. What is the term that describes the changes in the direction in which the Earth’s axis of rotation points? a.) Precession X b.) Perpendicular c.) Equatorial bulge d.) Gravitation 1-20. True or False: Polaris will not always be the pole star. a) True X b) False 1-21. Which term describes the ti ...

Physical Geography Exam Review Part 2

... - The nuclear explosion of this protosun created a T Tauri wind that blew away the gas atmospheres of the inner planets The inner planets continued to grow through accretion This was a very destructive time in the early solar system ...

FINAL EXAM

... 57. What period ended with Dino extinction 58. When did Dinos 1st appear 59. How much can crustal plates move in a year 60. 3 major cloud types 61. Most common form of solid precipitation 62. Warm vs. Cold Front 63. Barometer 64. How is Oxygen added to the atmosphere 65. Greenhouse Effect 66. Conduc ...

Sample - Physics @ IUPUI

... a) there are no season of Uranus because it is too far from the sun b) Uranus has no rings c) Uranus is tilted on its side d) Uranus currently has the most known moons in the solar system 27) How is Uranus different from Jupiter and Saturn? a) Uranus has no moons b) Uranus’s core is different c) Ura ...

Note - gilbertmath.com

... If you lived near the ______________, you would notice very little change in the hours of daylight you experience throughout the year. Every day, you would have approximately ____ hours of light and ____ hours of darkness. The farther __________ or __________ of the equator a person lives, the _____ ...

Astronomy Chapter 11 – Meteors, Comets and Asteroids A. Main

... interplanetary space into an irregular mass with a diameter of around 10 kilometers → The tail emerges from a cloud of gas called the coma, which can be some 100,000 kilometers in diameter. The coma and the tail contain very little mass. • Composition of Comets ⇒ Comets are rich in water, carbon dio ...

Coursework 2 File

... eclipse in which the Sun acts as a point source of light at infinity. The trajectory of the Moon behind the Earth is a straight line, running perpendicular to the rays of the Sun, along which the Moon travels at constant velocity. With the aid of a diagram, explain how the ratio of the Moon and Eart ...

Geocentric System

... The Moon is Falling! Newton’s insight: same force causes apple to fall and keeps Moon in orbit; decreases as square of distance, as does ...

Grade 9 Science Part 3 Other Celestial Bodies

... - Fragments left over from the formation of the solar system - Pluto is now considered part of this ...

Answers to Science Semester 1Review Possible hazards in the lab

... a.) Technological processes are used to make something or to solve a problem. b.) Machines are used to assist or replace people in doing a task. c.) Tools are used for changing other objects. d.) Carbon is a material used to make steel. e.) Physical models are something you can touch. f.) Mathematic ...

(Earth-like) planets

... The Moon is too massive to have been captured by the Earth. If the Earth and Moon both formed from the accretion of planetesimals, they should have the same composition and density. The Moon's mean density is considerably lower. The going hypothesis today is that a Mars-sized planetesimal struck the ...

Origin of the Elements and the Earth

... Ring of expelled gas from earlier ...

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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