Asteroids

... As comets approach the Sun they develop enormous tails of luminous material that extend for millions of kilometers away from the Sun. When far from the Sun, the center is very cold and its material is frozen solid. In this state comets are sometimes referred to as a "dirty snowball," since over half ...

Astrobiology: The Search for Extraterrestrial Life

... Although the exact method of how the first instance of life was formed remains unknown, it is clear that life on Earth can be traced back approximately 3.8 billion years ago to a period in Earths history in which heavy bombardment of comets containing organic chemicals was common. During this time, ...

Sun-Earth-Moon system

... transformation, and categorical shift. Hillsdale, NJ: Erlbaum. Gentner, D. and Stevens, A. L. (Eds.) (1983). Mental Models. Hillsdale, NJ: Erlbaum. Hegarty, M. and Waller, D. (2005). The Cambridge handbook of Visuospatial Think- ing, chapter Individual differences in spatial abilities, pages 121–169 ...

Across 2. a slightly cooler region on the surface of the sun, caused

... moon of jupiter that may have a huge ocean of liquid water under a deep sheet of ice ...

September - City School District of Albany

... ____1.1a Most objects in the solar system are in regular and predictable motion. - These motions explain such phenomena as the day, the year, seasons, phases of the moon, eclipses, and tides. - Gravity influences the motions of celestial objects. The force of gravity between two objects in the unive ...

Power Point Presentation

... The planet’s mass is 63% of Jupiter (about 200 Earth masses) with radius 1.3 times Jupiter  density 0.39 g/cm3 (< water!) It transits the star every 3.5 days Its atmosphere is very hot (1100oC) since it is only 6.4 million km from the star When the planet passed in front of the star, the star’s lig ...

ASK 8 Science

... Fats & Oils – provide stored energy; required for some life processes Vitamins – assist life processes; prevent disease Minerals – supply materials for growth and repair; help carry out life processes. There are over 100 trillion cells in your body and at least 100 different types of cell. Find pict ...

chap18_f04_probs

... Multiplying each side of the expression by volume gives: Total mass = density  volume = # of atoms  mass of 1 atom  volume of Earth = 103 atoms / meter3  1.7  10-27 kilogram per atom  volume of Earth = 1.7  10-24 kilogram / meter3  4/3    R3 = 1.7  10-24 kilogram / meter3  13.51  (6.4 ...

Branches of Earth Science Tools Used to Study Stars Constellations

... Galaxy is a huge collection of stars bound by gravity o Contain various star groups Billions of galaxies in the universe 3 types of galaxies o Spiral o Elliptical o Irregular ...

www.astro.utu.fi

The hierarchical structure of the Universe (go from little to large)

What is it? - Carmenes - Calar Alto Observatory

... mirabilis of 1995 (see the Extrasolar Planets Encyclopaedia for an updated catalogue). However, most of them are inhospitable giant gaseous planets with high temperatures that resemble those of the coolest stars and orbit very close to their suns (and their years last only a few days). With the impr ...

Gravity - Alvinisd.net

... 4 Just like the attraction between you and Earth and between the Moon and Earth, the Sun has a gravitational attraction with Earth that results in Earth orbiting the Sun. The Sun’s attraction is so strong that all objects in the solar system orbit around this medium-sized star. If the Sun’s gravitat ...

AST 301—Review for Exam 3 Consult “Guide to Reading and Study

Regents Review Questions.Unit 1.PlanetEarthTopo.Map.KEY

... Base your answers to question 7 on the map below, which shows locations A and B on Earth’s surface at the same distance from the ocean, at the same elevation above sea level, and at the same ...

Chapter 2 The Copernican Revolution

... Solar System Sun is at center of solar system. Only Moon orbits around Earth; planets orbit around Sun. This figure shows retrograde motion of Mars. Figure 2-‐9. Cap/on: Retrograde Mo

solution

... 3.24 How did Aristarchus try to estimate the diameters of the Sun and Moon? He used geometry and proportions to estimate the relative distances between the Sun, Earth and Moon. Once he had these, he used the eclipses to state that the Sun and Moon had the same angular size, so their relative sizes c ...

20.1 A Solar System is Born

... 1. The young solar nebula begins to collapse 2. The solar nebula rotates, flattens, and becomes warmer near its center 3. Planetesimals begin to form within the swirling disk. 4. As the largest planetesimals grown in size, their gravity attracts more gas and dust. 5. Smaller planetesimals collide wi ...

Chapters 14 & 15 - My Teacher Pages

... cells(a living thing enclosed by a membrane). • Protocells formed between 3.9-3.5 billions of years ago. Examples of Protocells; microsphere & coacervates ...

The Universe and Galaxies - West Jefferson Local Schools

... - ________ is required for light to travel through space - light travels a little over 8 minutes from the sun to earth - the farther away an object/star is, the ________ it takes for light to get to us, and the older the light is when it gets to us = “Light is OLD” - we see the ________of other star ...

The Universe and Galaxies - West Jefferson Local Schools

on his death bed. Retrograde Motion The heliocentric

... • Isaac Newton was born the year Galileo died. • He made major advances in mathematics, physics, and astronomy. • He pioneered the modern studies of motion, optics, and gravity and discovered the mathematical methods of calculus. • It was not until the 20th century that Newton’s laws of motion and ...

Earth/Env. Science Practice Final Exam 1. By which process do stars

... (A) faster, because the land has a lower specific heat (B) faster, because the land has a higher specific heat (C) slower, because the land has a lower specific heat (D) slower, because the land has a higher specific heat 45. Most water vapor enters the atmosphere by the processes of (A) conduction ...

doc - Discover Earth Science

... night relative to a fixed position on the Earth’s surface 1) there are 360 in a circle, it takes about 360 days to orbit the Sun, so there’s the 1 shift 2) it is revolution that accounts for us seeing different constellations during different seasons of the year since we are moving in space, we ha ...

Chapter 25 PowerPoint

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Rare Earth hypothesis

In planetary astronomy and astrobiology, the Rare Earth Hypothesis argues that the origin of life and the evolution of biological complexity such as sexually reproducing, multicellular organisms on Earth (and, subsequently, human intelligence) required an improbable combination of astrophysical and geological events and circumstances. The hypothesis argues that complex extraterrestrial life is a very improbable phenomenon and likely to be extremely rare. The term ""Rare Earth"" originates from Rare Earth: Why Complex Life Is Uncommon in the Universe (2000), a book by Peter Ward, a geologist and paleontologist, and Donald E. Brownlee, an astronomer and astrobiologist, both faculty members at the University of Washington.An alternative view point was argued by Carl Sagan and Frank Drake, among others. It holds that Earth is a typical rocky planet in a typical planetary system, located in a non-exceptional region of a common barred-spiral galaxy. Given the principle of mediocrity (also called the Copernican principle), it is probable that the universe teems with complex life. Ward and Brownlee argue to the contrary: that planets, planetary systems, and galactic regions that are as friendly to complex life as are the Earth, the Solar System, and our region of the Milky Way are very rare.

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Rare Earth hypothesis