The core of the Sun is

... It was produced by nuclear fusion in stars. It was made by our Sun. It was made by nuclear fission of uranium and other radioactive ...

January 23

... Sizes of planets • Largest to Smallest: • Jovian planets: Jupiter, Saturn, Uranus, Neptune • Terrestrial planets: Earth, Venus, Mars, Mercury ...

Asteroids • Small, rocky objects in orbit around the Sun. +

... • 250,000 currently have designations. • + estimated > 1 million asteroids < 1 km in size. • But total mass probably less than mass of Moon. Mars ...

EARTH SCIENCE MIDTERM REVIEW SHEET

... A planet will cover an equal area of space in equal time periods. Gravitational Force - gravity increases as distance decreases from the planet to Sun or moon to planet Planets - apparent diameter is larger as distance decreases- Planet appears bigger as it is closer to Earth ESRT p. 15 lists all of ...

Earth

... But that is small comfort. In its retirement from normal core fusion, our previously nurturing star will care little for its planetary children. It will be pumping out a thousand times more energy, making Earth a good approximation to hell. To add insult to injury, the solar wind -- a stream of par ...

Time

Section 2

PowerPoint Presentation - msharnack

Clicker Frequency Setting Lecture 2 Outline

... The DIRECTNESS of the rays is what causes the seasons to occur - summer (N. Hemisphere) – more VERTICAL RAYS - winter (N. Hemisphere) – fewer VERTICAL RAYS Fact 1: Earth-Sun distance only changes by 3% over the year Fact 2: Earth is actually closest to the Sun during January!! ...

ASTR-1020: Astronomy II Course Lecture Notes - Faculty

... permit the existence of liquid water =⇒ F5 V – K5 V stars. — models predict this number to range between 0.01 and 1 per star. — 4 billion years chosen here due to length of time it took intelligent life to evolve on Earth. — N`z = N? fp n`z = 109 − 1011 habitable zone planets. ...

INSTITUCIÓN EDUCATIVA LOS GÓMEZ PLAN DE APOYO FECHA

... The solar system is the Sun and the objects that travel around it. The Earth is part of the solar system because it also travels around the sun. The Sun is a star similar to the other stars in the sky but it is much closer to the Earth. The Sun is mostly a big ball of gases composed mainly of hydrog ...

Space and Mythology

the earth

... You will be dealing with the composition and structure of the earth’s atmosphere in Chapter 8. There are three stages in the evolution of the present atmosphere. The first stage is marked by the loss of primordial atmosphere. In the second stage, the hot interior of the earth contributed to the evol ...

File

... color and it does not have a hard surface and actually the surface was layers of clouds.Uranus is outside the orbit of Saturn and inside the orbit of Neptune. It is very far from the sun so Uranus is very cold . Uranus has the 27 moons. Uranus athmosphere is made of gasses such as mathane hydrogen a ...

Archaeologists Say the `Anthropocene` Is Here—But It Began Long

The formation of the Solar System I. Stellar context

... Lewis Model: Correct predictions ...

1 - Alice Pevyhouse

... will complete one circle ‘cycle’ and point back at the same point. This is known as? 24.The Earth’s axis of tilt can vary from its current 23.5 degree tilt (T/F) 26. In another 13,000 years, Earth's axial tilt will point in the opposite direction it does now. Assuming the other astronomical influenc ...

Final Exam Prep

... Planets. Terms: solar nebula, planetessimal, terrestrial planet, gas giant planet 5. Ch 28 Minor Bodies of the Solar System pp 718-744 Review pp 723-724 Formation of the Earth’s Moon, How di the Earth’s moon form? How is this different from the moons of other planets? Review Section 2- Movements of ...

Vocabulary – Our Solar System

... It is a rocky planet that orbits the sun faster than any other. It has no moons and no rings. ...

PPTX - University of Colorado Boulder

... Upsilon Andromedae is a binary star located about 44 light-years away from the Earth. The primary star is a yellow-white dwarf star that is younger than the Sun. There is a second star that is a red dwarf in a wide orbit. As of 2010, four confirmed extrasolar planets have been discovered. ...

Solar System Information

... Our Solar System ...

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

... collaborators were testing a new noise-analysis method on spectrometer data to calibrate their technique. Indeed, the team of 15 astronomers from seven institutions on four continents had picked Tau Ceti specifically because meticulous observations strongly suggested the star had no planetary system ...

Gravitation - Galileo and Einstein

Unit 12 Guide: Concepts of Earth Science Stars, Galaxies, and the

... Milky Way galaxy? 2. What evidence do scientists use to support the Big Bang Theory? Explain the sequence of events predicted by the Big Bang Theory. 3. Explain Hubble’s Law. 4. Compare and contrast the apparent and actual motion of stars. How can scientists know if a star or galaxy is moving toward ...

Science Framework for California Public Schools

... Impacts of asteroids have created extensive cratering on the Moon, on Mercury, and on other bodies in the solar system. Some craters can also be found on Earth, but most have been destroyed by the active recycling of Earth’s planetary surface. Some large impacts have had dramatic effects on Earth an ...

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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