Mon Jul 29, 2013 SUN IN LEO? NO, CANCER!

... were at the center of our galaxy, for when you looked along the milky band of light that defines the galactic disc, you saw roughly the same number of stars throughout. Other astronomers suggested that interstellar dust clouds kept us from seeing the great wealth of stars that lay at the galaxy's he ...

dwarf planets reading comprehension

... Wow! Technology has improved so well in the last several years that we keep finding more and more objects in our solar system! Because of this, scientists have had to come up with new categories for objects in space. This included reclassifying Pluto as a dwarf planet, in 2006. The eight planets in ...

Star Formation

... Low Mass (0.08 MSuns < M < 2 MSuns) Intermediate Mass (2 MSuns < M < 8 MSuns) High Mass (M > 8 MSuns) ...

Today`s Powerpoint - Physics and Astronomy

... Aristotle vs. Aristarchus (3rd century B.C.) Aristotle: Sun, Moon, Planets and Stars rotate around fixed Earth. Aristarchus: Used geometry of eclipses to show Sun bigger than Earth (and Moon smaller), so guessed that Earth orbits the Sun. Also guessed Earth spins on its axis once a day => apparent m ...

The Asteroid Belt - peterboroughastronomy.com

... The first thing we should establish is the difference between an asteroid and a comet. In the very simplest terms an asteroid is a chunk of rock that orbits the Sun and is within our solar system. A comet is a giant dirty snowball that is pulled in from a very distant area called the Oort Cloud. Thi ...

The Earth - Eniscuola

Elements - Hofstra

... almost all matter was hydrogen, with some helium. ...

Name - MIT

... 1) Assume that 239U has a half-life of 23 minutes and decays into 239Np. You initially start with 800 grams of pure 239U. How many grams of 239U will you have in 69 minutes? A) 25 grams B) 50 grams C) 75 grams D) 100 grams E) 200 grams 2) You find a rock that you believe to be a meteorite. You date ...

Unit 1

... constellation, satellite, stars, moon, planets, sun, mass, matter, particles, solids, liquids, gas Essential Skills: Solar System Unit:  A solar system includes a star, planets, and other objects.  Planets revolve around a star in orbits of differing lengths.  The Earth is the 3rd planet from the ...

Monday, June 21, 2004

... 2. Make 10 equal balls. Squash 6 of them together...this will be JUPITER. Place the ball on the paper labeled JUPITER. Take another 3 and squash them together...this is only part of SATURN (you will add to SATURN two more times before the activity is over). Place the ball on the paper labeled SATURN ...

Chapter2-Questions

... Planets were assumed to move uniformly on an epicycle, as it moved uniformly around Earth. ...

Homework #1: Due in class Thursday February 2nd

... Visible light and X-rays are both electromagnetic radiation, but X-rays have much shorter wavelengths (higher photon energies). Only extremely hot gases (millions of degrees) emit significant X-ray radiation, whereas visible light is emitted by gas at `only’ thousands of degrees. Hence, the differen ...

Solutions to problem set 5

... 3. The Sun will reside on the Main Sequence for 1010 years. The Main Sequence lifetime of a star is proportional to the star’s mass divided by the star’s luminosity. If the luminosity of a main-sequence star is proportional to the fourth power of the star’s mass, what mass star is just now leaving ...

Answer - Brock physics

PowerPoint. - teachearthscience.org

... Planets and large moons are round because their gravitational field is directed to the center of the body and pulls everything toward it. With large bodies, internal heating causes it to behave somewhat like a fluid and form a sphere. A sphere is a shape with the least amount of surface area. In sma ...

1st Semester Earth Science Review 2014-15

... ____ 36. A small, hot, extremely dense core left after a star collapses is a a. red giant. c. black dwarf. b. pulsar. d. white dwarf. ____ 37. During the main sequence stage, how is energy generated in a star’s core? a. Hydrogen fuses into helium. c. Helium fuses into hydrogen. b. Carbon fuses into ...

Calculating Large Distances

... A light-year is the distance that light travels in one year. Since the speed of light is approximately 300,000,000 m/s, this is a very large distance. To help you imagine this length, let us convert the speed of light to km/s and compare this to the AU. First, 300,000,000 m/s x 1 km/1,000 m = 300,00 ...

Lecture 22 - Star Formation from Molecular Clouds

What is a Planet

... Revolution= 248.6 years Gravity- 1/8 that of Earth Orbit- Pluto has a more elliptical and titled orbit, one of the reasons its lost identification as a planet. This tilted orbit sometimes allows it to be closer to the sun than Neptune, making Neptune the further most planet. Eccentricity: .25 ...

Planets, Dwarf Planets and moons of our Solar System

... Revolution= 248.6 years Gravity- 1/8 that of Earth Orbit- Pluto has a more elliptical and titled orbit, one of the reasons its lost identification as a planet. This tilted orbit sometimes allows it to be closer to the sun than Neptune, making Neptune the further most planet. Eccentricity: .25 ...

friends of the planetarium newsletter

... your newsletters by email. This helps out in two ways. First, the Planetarium saves on postage. Second, you get to see the pictures that we include in their original colours, not just a black and white photocopy. If you would like to receive your newsletter by email, contact us at the address above. ...

15 - Edmodo

... 3. The Composition of our Solar System After the Sun formed, the leftover dust, gases, and other debris in the nebula continued to spin, creating a disk around the new star. Small bodies began to form, growing into the planets, moons, asteroids, and comets that make up the solar system. The next lar ...

Lab 1-2 : Vocabulary

... • Absolute - the magnitude of a star computed as if viewed from a distance of 32.6 light-years. • Apparent – a star’s brightness as it appears from Earth. The sun APPEARS brighter than the other stars because it is closer to us! ...

Today`s Powerpoint

... Makes their orbits elliptical. They collide with other particles and end up in new circular orbits at other radii. Cassini division nearly swept clean. ...

ASR - GEOCITIES.ws

... • An asteroid is any of numerous small planetary bodies that revolve around the sun. Asteroids are also called minor planets or planetoids. Most of them are located in the asteroid belt between the orbits of Mars and Jupiter. The belt contains more than 1,150 asteroids with diameters greater than 30 ...

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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