The Origin of the Solar System

... our galaxy and this suggests that most stars may have planets around them ...

The Solar System and its Planets

... Where are the surfaces of the moons of the gas giant planets located on this plot? ...

Jim_lecture_Chapter

... effect might be • Mars, at 1.52 AU, is cold and dry today but looks as if it may have been habitable in the distant past… ...

A time exposure photograph was taken for 8 hours. During that time

... -LAT is fLAT Up to 90o N ...

Section 26.2 - CPO Science

... 26.2 The Seasons  The seasons are caused by the 23-degree tilt of Earth’s axis of rotation relative to its orbit.  During summer in the Northern Hemisphere, the north end of the axial tilt is facing toward the Sun. ...

Saraswati River - Ancient Greece

... 1. sun, moon, Mercury, Mars, Venus, Jupiter and Saturn 2. 1000s of stars – of which only about 1000 were identifiable in groups – namely the 48 ancient constellations which were formalised by Ptolemy (c.AD100 – 178) 3. Occasional phenomena – e.g. eclipses, comets and shooting stars. All ancients (th ...

Adobe Acrobat - Ancient Greece

... 1. sun, moon, Mercury, Mars, Venus, Jupiter and Saturn 2. 1000s of stars – of which only about 1000 were identifiable in groups – namely the 48 ancient constellations which were formalised by Ptolemy (c.AD100 – 178) 3. Occasional phenomena – e.g. eclipses, comets and shooting stars. All ancients (th ...

quiz 2

... b) That the seasons were caused by the distance between the Earth and the Sun. c) That the seasons were caused by the varying tilt of the Earth’s axis d) That the seasons were caused by the moon intercepting some of the light from the sun. For Questions 8 – 12, complete the following sentences using ...

Chapter 24 - Cloudfront.net

... hydrogen nuclei into the nucleus of a helium atom and tremendous energy is released It is believed that a star our size can exist in its stable state for ~10 Billion years, making our sun middleaged at ~4.5 Billion years old ...

Asteroids Comets and Meteoriods 2015

... The fireball fell into the ocean off the coast of Brazil and released energy roughly equivalent to 13,000 tons of TNT. This is significantly less than the Chelyabinsk impact, with the equivalent of 500,000 tons of TNT, but it was at least 26 times as powerful as any of the three impacts NASA ...

File

... • Solar System: Our Sun and the planets that move around it, including asteroids, meteors, and comets • Galaxy: A system of millions or billions of stars, together with gas and dust, held together by gravity • Satellite: A man-made object placed in orbit around the earth, the moon, or another plane ...

Science Journals * 3-18-13

... and that the Sun is many thousands of times closer to the earth than any other star. ...

File

... Astronauts can’t land on Venus because they would get: burned up by the 900 degree heat, poisoned by the acid that covers the surface, and crushed by the planet’s heavy atmosphere of carbon dioxide! ...

Parallels: Proto-Planetary Disks and rings

... • But how did these gas-giant planets in other solar systems get so close to their parent stars? • Because Earth's solar system does not host any hot Jupiters (the giant planets are further out, and smaller planets orbit closer to the star), scientists have to rely on observations of distant planeta ...

Name

... geology or mineralogy will tell you everything you ever wanted to know about these minerals.) Almost all rocks are made of silicon and oxygen mixed with other elements such as calcium, aluminum, and iron. Mantle rock contains particularly large amounts of iron and magnesium. The mantle is also divid ...

My notes: Lecture #1

... Means: at shorter distance planet moves faster !!! Then show picture of areas c. The orbital period of a planet is related to the semi major axis of its elliptical orbit. If we measure period P in years and the semi major axis in AU (average distance earth-sun) then simple: (semi major axis)3 = (per ...

The Sun: Home Star

... The Sun • Key to solar-stellar connection • Close-up model for other stars • Local “lab” for testing ideas about the physics of stars • Energy source for most life on earth ...

DO NOT WRITE ON THIS PAPER Standard 1 Objective 1 Study

... 15.The time it takes for half of a sample of a radioactive isotope to decay is called a Halflife. 16.Radioactive dating is used to determine the absolute age of rocks because radioactive decay happens at a relatively constant rate. 17.Radiometric dating is determining the age of a substance by compa ...

Owsley Brown II Portable Planetarium 9

... ● Kepler’s laws describe common features of the motions of orbiting objects, including their elliptical paths around the sun. Orbits may change due to the gravitational effects from, or collisions with, other objects in the solar system. (HS-ESS1-4) ● Cyclical changes in the shape of Earth’s orbit a ...

Intro to Earth science

... BIG BANG THEORY • All matter and energy compressed into extremely small volume • 14 billion years ago (??) sudden event (big bang) sent all matter and energy hurling outward ...

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. ...

Getting to Know: Rotation, Orbits, and the Seasons

... means that the heat energy radiated by the Sun is spread over a larger area, resulting in cooler temperatures. This is why there is little seasonal variation at locations near the equator. The Sun shines more directly onto equatorial regions throughout the year. Keep exploring this concept to learn ...

Round_2_Solutions _2015

... available. The rate at which Venus traverses the background firmament is too rapid for such a small angle to be measured reliably. (By the 1840s, Bessel could measure the motion of a star through an angle of 10-7 radians (a second of arc), for a star at a distance of 1 parsec from the Earth, but thi ...

9-Unit 1Chapter 11 Workbook

... 24. _______________________: a rocky chunk, broken off an asteroid or planet, which floats through space. 25. _______________________: a small body made up of rocky material and ice that occurs in the Kuiper Belt and the Oort Cloud. 26. _______________________: reflecting or refracting telescope use ...

Science 9 – Space Exploration

... distance from the center of the Earth to the center of the Sun. The largest planet, Jupiter, is approximately … A. 5 AU’s from the Sun B. 10 AU’s from the Sun C. 19 AU’s from the Sun D. 30 AU’s from the Sun 7. In the 2nd Century A.D. Egyptian astronomers used an instrument, called a quadrant to … A. ...

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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