Comet ISON - Lone Star Science with Mr. Zuber

... Comet C/2012 S1 (ISON) • ISON started its journey towards the Sun (out of the Oort Cloud) a few million years ago • Discovered by Russian astronomers, part of the ISON Project (International Scientific Optical Network) in September 2012. • Comet ISON is a sungrazer, a comet that travels close to th ...

Explaining Apparent Retrograde Motion

... the sky relative to the background stars (@1 degree per day) – caused by Earth’s motion around Sun ...

Lecture 1 - Department of Physics and Astronomy

... Telescopes are Time Machines When you look at an object 1 light away, you are looking at what it looked like 1 year ago. When you look at an object 1 million light years away, you are looking at it 1 million years ago. The universe is thought to be 13.66 billion years old, so when you look back 1 ...

PRACTICE MINI-EXAM

... Hubble constant = H0 = 71 km/sec/Mpc Hubble time = 1/H0 = 1.4 × 1010 years Hubble distance = c/H0 = 4300 Mpc Critical density = 10−26 kg/m3 ...

1 Introduction - Numerical Recipes

... WE ARE IN NO FAVORED POSITION IN THE UNIVERSE. so the Universe near us and physics near us are typical of contemporaneous parts of the Universe | unless, of course, we nd factual evidence to the contrary (and this should be, in each such case, only by rare good or bad luck.) When does astronomy tur ...

Presentation 3

... interested into the region of space beyond these eight planets. "There's this huge part of the solar system that we're only just beginning to learn about." he says. This a hypothetical in planet our solar system. It is in the farther part of our solar system. It's orbit period expands from 10,000 ye ...

OP/IP27 Stars HR life of stars WS

... Directions: Use the HR diagram on page R63 in your textbook to answer the following ...

sidereal day

... •The poles would receive less direct light and thus be colder making the survival rate there lower as well. •The species would have evolved differently (micro-evolution), thus different life would be on Earth. •But we would have a habitable zone between the poles and the equator, but unfortunately i ...

THE DEFINITION OF PLANET: A DYNAMICIST`S POINT OF VIEW

No Slide Title

... HIGH ENERGY RADIATION AND PARTICLES INTO SPACE ...

STARS

... charged particles that may fly at speeds of millions of miles per hour. ...

Astronomy that falls from the sky

... rocks never formed into a planet and are orbiting in a transitional area between the inner rocky planets and the outer gas giants. Most, but not all, meteorites are pieces of asteroids (some meteorites are pieces of our Moon, the planet Mars, possibly Mercury, and also comet nuclei). 5. Beyond the A ...

Slide 1

... covered with dark blue water •Swirling white clouds •Continents are marked by mountains •Close in size to Venus ...

WORD - hrsbstaff.ednet.ns.ca

... 35. What are the four Terrestrial Planets? (a) Charon, Earth, Uranus, Mars (b) Mars, Venus, Mercury, Earth (c) Venus, Pluto, Mercury, Jupiter (d) Neptune, Uranus, Sol, Jupiter 35. What are the four Jovian Planets? (a) Saturn, Neptune, Jupiter, Uranus (b) Mars, Ceres, Mercury, Saturn (c) Uranus, Merc ...

Extra Terrestrial Excursions

Earth Science Library wk 2 (WP)

Jupiter_Io_13_3

... lightning in Jupiter's upper atmosphere. As Jupiter rotates, it takes its magnetic field around with it, sweeping past Io and stripping off about 1,000 kg (1 ton) of Io's material every second! This material becomes ionized in the magnetic field and forms a doughnut-shaped cloud of intense radiation ...

Document

... Planets are everywhere! Other solar systems are NOT like our own! Hot Jupiters (how did those get there?) Super-Earths Hot Neptunes Many more questions... ...

PEP Talk - UCSD Department of Physics

... • PEP integrates partials only for one body at a time • Dependence of each body on coordinates of other bodies and thence by chain-rule on parameters affecting other bodies • Such partials are evaluated by reading the other single-body integrations • Iterate as needed ...

Quiz 2 review sheet - Rice Space Institute

... deeper, changing Fe into heavier elements. But since iron is the most stable element, additional fusion takes energy not releases it, so the core collapses faster and the explosion even more incredible, spewing heavy elements into its vicinity. The outer layers start hydrogen and helium burning. Thi ...

Announcements

... to calculate the gravitational force on this mass from the Earth l  What is the direction of the force on the mass? ◆  towards the center of the Earth l  What is the direction of the force on the Earth? ◆  along the line joining m1 and the center of the Earth, pointing ...

Intermediate - Maggie`s Earth Adventures

... red button and play the Science Diagramming game. Even if you are not currently studying any of the topics presented on the charts, it is good reading practice and will also improve study skills and concentration! Happy teaching, Kathy Answer Key: 1. Jan.2 2. 333,000 times 3. Hydrogen 4. 12,756 km 5 ...

Chap. 4: Gravitation and the Waltz of the Planets

... Why did Copernicus (1473-1543) think that the Earth and the other planets go around the Sun? How did Tycho Brahe (1546-1601) attempt to test the ideas of Copernicus? What paths do the planets follow as they move around the Sun? Johannes Kepler (1571-1630) What did Galileo (1564-1642) see in his tele ...

Chapter 9 Asteroids, Comets, and Dwarf Planets

... • Asteroids are rocky leftovers of planet formation. • The largest is Ceres, diameter ~1,000 km. • There are 150,000 in catalogs, and probably over a million with diameter >1 km. • Small asteroids are more common than large asteroids. • All the asteroids in the solar system wouldn’t add up to even a ...

Paper Plate Sun - Lunar and Planetary Institute

... Add different features of the Sun to your plate like Sunspots or solar flares using the craft items Glue a peppercorn on the plate to represent the size of the Earth Version 2: Layers- for Older Children Help your child draw the different layers of the Sun on the plate 1. Put a dot in the center of ...

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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