Notes 14-2

... • Most of the energy that the Sun produces is formed in it’s core. • The Core’s temperature is 10 million to 20 million degrees Celsius. • The pressure is more than 1 billion times greater then the air pressure of Earth. ...

ASTR1010_Exam3_Sp14

... 23. Why does Mercury have such a large metal core in proportion to the total size of the planet? a) Mercury suffered a giant impact that ejected its outer layer. b) Mercury is close enough to the Sun that only a small mantle could have formed. c) Mercury’s core is hollow, so it is not as big as it s ...

When Stars Blow Up

... Cataclysmic Variables •Binary star systems incorporating a white dwarf ...

... 4. Once temperatures at Earth's surface reach the boiling point (or perhaps somewhat earlier), it is believed that a runaway greenhouse effect will occur, vaporizing the oceans and turning Earth into a sweltering inferno (like Venus). Approximately a 50-100% increase in Solar luminosity should be su ...

Ecliptic 1 2 3 Three tell tale visual characteristics a planet:

... When the planet is opposite the sun, it rises near sunset and is visible all night. It is closest to the Earth and shines at its brightest. ...

- The Synaptic Trust

... Forest Academy ...

The Earth and Beyond

...  Universe will expand and spread out into eternity ...

Document

... predict the motion of the stars. • If we add epicycles and several other “fixes” it is possible to predict the motion of the planets. • Ptolemy’s geocentric model provided the most accurate predictions of celestial motion. It allowed people to navigate to distant parts. • The geocentric model is cum ...

Solar System Book solarsystem3

... the vastness of space. For some students, this perspective might provide a sense of scale for their own panoramas and concerns. It may also help students understand why many people are excited about the prospects of discovering and exploring new solar systems, both within our galaxy and beyond. Key ...

Terrestrial Planets

... 90 times the Earth’s surface pressure! • 96% CO2 and less than 4% N2 Earth 79% N2 and 20% O2 Earth’s CO2 is trapped in rocks and oceans • Temperature of surface is 480 degrees Celsius. It is the hottest planet, due to the “greenhouse effect.” • As CO2 increases on the Earth, we similarly get a green ...

Planets - Calgary Islamic School OBK

... Asteroids - rocks with sizes greater than 100m across Most asteroids remain in the Asteroid belt between Mars and Jupiter but a few have orbits that cross Earth’s path. Three asteroids hit the Earth every 1 million years! ...

EARTH MOTIONS

... length of major axis • All eccentricity values must be between 0 and 1 (decimal)! ...

a closer look at the planets

... • Largest moon is TITAN. It is the only moon in the solar system to have an atmosphere composed of ...

Orbits…the celestial paths of planets

... But first, things for you to read on your own • Difference between mean solar time and apparent solar time • Time zones (central standard time, mountain standard time, etc). • Be sure and read material on eclipses, fill out presentation in class ...

The Origin of the Solar System Chapter 8:

... Rocky planet material was formed from the clumping together of dust grains in the protostellar cloud. ...

Powers of ten notation

... Diurnal motion – daily motion from east to west staying close to ecliptic Direct motion – as with the Sun and Moon, move west to east as compared to the stars, each at a ...

Day-39

...  Comets are icy planetesimals found beyond the planets.  Far from the Sun, these objects remain small, icy bodies that are very hard to see from Earth.  Located either in the Kuiper Belt or the Oort Cloud surrounding the Solar System. ...

Spiral Elliptical Irregular - SMS 8th Grade Astronomy Unit

... The Earth’s Place in the Universe Earth is one of eight (+Pluto!) planets in the solar system We are __________________ million miles away from the sun This is called an Astronomical Unit (AU) (it would take a jet 17 years to travel this far!) Pluto is 39 AU from the sun…How many miles is that? ____ ...

The Planets

... Saturn is the roman god of harvest, Saturn is also known as Kronos god of time in Greek. ...

Second Book: Student´s Reference Book ……

... Mars, planet that takes its name from the Roman god of war. The fourth from the Sun and the seventh greatest in mass. Mars has two small satellites with craters: Phobos and Deimos which some astronomers believe are asteroids captured by the planet early in its history. Phobos measures 21km in diamet ...

Announcements

... • Describe the significance of bombardment in the early solar system. • Compare and contrast the structure & evolution of the terrestrial planets. • Describe the differentiation into core, mantle & crust. • Describe the heating and cooling processes in planetary interiors. Describe the importance of ...

Motions_of_the_Sun_and_Moon_5th_grade_visit_2011

... 5.2.1 Recognize that our earth is part of the solar system in which the sun, an average star, is the central and largest body. Observe that our solar system includes the sun, moon, seven other planets and their moons, and many other smaller objects, such as asteroids and comets. 5.2.2 Observe and us ...

Pythagoras Eudoxus of Cnidus Aristotle Eratosthenes Hipparchus

... scientific genius of all time because he made important contributions to every major area of science known during his time: mathematics, physics, optics, and astronomy. In the field of astronomy, Newton is best known for his laws of motion and gravity. People already knew that objects dropped would ...

... 8. Consider two telescopes. Both are shaped like cylinders. For the first telescope: the width across the circular shaped opening is 1 foot and the length is 4 feet. For the second telescope: the width across the circular shaped opening is 1/2 foot and the length is 8 feet. a.) the first telescope h ...

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Formation and evolution of the Solar System

The formation of the Solar System began 4.6 billion years ago with the gravitational collapse of a small part of a giant molecular cloud. Most of the collapsing mass collected in the center, forming the Sun, while the rest flattened into a protoplanetary disk out of which the planets, moons, asteroids, and other small Solar System bodies formed.This widely accepted model, known as the nebular hypothesis, was first developed in the 18th century by Emanuel Swedenborg, Immanuel Kant, and Pierre-Simon Laplace. Its subsequent development has interwoven a variety of scientific disciplines including astronomy, physics, geology, and planetary science. Since the dawn of the space age in the 1950s and the discovery of extrasolar planets in the 1990s, the model has been both challenged and refined to account for new observations.The Solar System has evolved considerably since its initial formation. Many moons have formed from circling discs of gas and dust around their parent planets, while other moons are thought to have formed independently and later been captured by their planets. Still others, such as the Moon, may be the result of giant collisions. Collisions between bodies have occurred continually up to the present day and have been central to the evolution of the Solar System. The positions of the planets often shifted due to gravitational interactions. This planetary migration is now thought to have been responsible for much of the Solar System's early evolution.In roughly 5 billion years, the Sun will cool and expand outward many times its current diameter (becoming a red giant), before casting off its outer layers as a planetary nebula and leaving behind a stellar remnant known as a white dwarf. In the far distant future, the gravity of passing stars will gradually reduce the Sun's retinue of planets. Some planets will be destroyed, others ejected into interstellar space. Ultimately, over the course of tens of billions of years, it is likely that the Sun will be left with none of the original bodies in orbit around it.

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Formation and evolution of the Solar System