How all the stuff in the solar system was created.

Slides:

Advertisements

Similar presentations

Formation of the Solar System. Our solar system was born from the collapse of a great cloud of gas. A nebula that formed from hydrogen gas and the remnants.

Advertisements

Chapter 8 Formation of the Solar System

“THE SOLAR NEBULAR THEORY”.  A huge nebula condenses under its own weight due to gravitational attraction.

Chapter 6 Our Solar System and Its Origin

Solar System Geocentric = Earth (geo) is center of universe Heliocentric = Sun (helio) is center of universe Which is correct? Heliocentric… proved by.

Origin of the Solar System Astronomy 311 Professor Lee Carkner Lecture 8.

ASTR100 (Spring 2008) Introduction to Astronomy The Formation of Planets Prof. D.C. Richardson Sections

1 a little physics SESAME Astronomy Winter 2011 week 2.

“How Did Our Solar System Form?” Ch Space is not really empty. There is gas and dust in between the stars. This gas is mostly hydrogen, left over.

Solar System What you need to know Where we live in Space.

Formation of the Solar System  This is a picture of the Eagle Nebula taken by the Hubble Telescope in  A nebula is a cloud of gas and dust in space.

Formation of the Solar System Q of D: How did the solar system form?

CH 25.5 Solar System Formation

 If it has mass, it has gravity!  What does it cause to happen?  Attraction, orbiting  Laws - Newton  More mass = more gravity  Closer together =

AST 111 Lecture 15 Formation of the Solar System.

After the Test 1)Read page 70, then pp and take notes. 2) Select one of the planets, (not Earth) or a moon of a planet and research the following.

Space and Astronomy Study Guide Standard 1

Formation of our solar system: The nebular hypothesis (Kant, 1755) Hydrogen (H), He (He) and “stardust” (heavier elements that were formed in previous.

© 2010 Pearson Education, Inc. Formation of the Solar System.

Forming Earth and Our Solar System By David and Jake Thank You!

Universe Seventh Edition Chapter 8: Comparative Planetology II: The Origin of Our Solar System Copyright © 2005 by W. H. Freeman & Company Roger A. Freedman.

ACTIVITY 1. For distances to stars and galaxies, astronomers use a unit called a light- year. A light-year is the distance that light travels in a year.

Formation of the Solar System

Star Formation. 1) Nebula  Cloud of interstellar gas and dust  Collapses due to its own gravity  Begins Star Formation.

Our Solar System and Its Origin. 6.4 The Formation of Planets Our Goals for Learning Why are there two types of planets? Where did asteroids and comets.

THE BIRTH OF THE SOLAR SYSTEM. MODELS OF THE SOLAR SYSTEM Geocentric - Everything revolved around earth. (Aristotle and Ptolemy) Heliocentric – Planets.

FORMATION OF THE SOLAR SYSTEM Chapter Began as a solar nebula  Cloud of gas and dust  4 to 5 billion years ago  Fusion began in center SUN! –Triggered.

Our Solar System

Solar System Formation Solar System Comprised of a star and the planets that orbit the star Binary – Two stars at center of system –Eclipsing is when.

Solar System Formation Solar System Comprised of a star and the planets that orbit the star Binary – Two stars at center of system –Eclipsing is when.

2 nd Law of Thermodynamics 1 st Law – conservation of energy 2 nd Law – no cyclic process which converts heat entirely into work is possible. Can’t build.

The Formation of the Solar System The Nebular Hypothesis.

A powerpoint presentation by: Polly Adams, Maggie Aldworth, Avery Sheiner, and Elias Armao.

CH 25.5 Solar System Formation Objectives: How did our solar system form? What evidence supports our ideas?

Parallels: Proto-Planetary Disks and rings 30 November 2015.

How was Earth formed?. Big Bang Theory 13.7 billion years ago 13.7 billion years ago Creation of all matter Creation of all matter Hydrogen and Helium.

The Gas Giant (Jovian) Planets Jupiter Uranus Saturn Neptune The Terrestrial (Rocky/Metal) Planets Mercury Earth Venus Mars.

Formation of the Solar System Carin Miranda SMS

11.2 The Sun and the Planets Our Sun, an average star in the universe, is the center of our solar system. Planets, moons, asteroids and comets revolve.

The Formation of Our Solar System The Nebular Hypothesis.

#8 Stars and The Milky Way Galaxy. As a Review: What is a Solar System? - Solar means Sun! So our solar system is made up of the sun, the.

Origin and Evolution of the Solar System. 1.A cloud of interstellar gas and/or dust (the "solar nebula") is disturbed and collapses under its own.

The Formation of the Solar System. The Nebular Hypothesis The Solar System formed ~ 4.6 billion years ago Evidence from:  meteorites ( billion.

Nebular Theory 9/4/2015. © 2005 Pearson Education Inc., publishing as Addison-Wesley Nebular Theory of the Solar System 1.Large bodies in the Solar System.

The solar system Topic # 2 Term # 2 The Local System.

Unit 2 Lesson 2 Gravity and the Solar System Copyright © Houghton Mifflin Harcourt Publishing Company.

Birth of Stars and Planets 15 March Stars Self-luminous balls of gas Produce energy through nuclear fusion: like a controlled H-bomb Some of this.

Origins and Our Solar System

Formation of Our Solar System

Our Solar System and Its Origin

CHAPTER 2 LESSON 2 THE SOLAR SYSTEM.

Our Solar System and Its Origin

Solar System Formation

Bell Ringer What is the order of the planets?

Formation of a Solar System

Formation of the Solar System

Formation of a Solar System

Solar System Formation

Our Solar System and Its Origin

A cloud of space dust or gas.

Chapter 6 Our Solar System and Its Origin

2. THE SOLAR SYSTEM’S EARLY HISTORY

Chapter 6 Our Solar System and Its Origin

Astronomy 2014 Study Guide.

NEBULAR THEORY.

Star Formation CH. 5.

A SOLAR SYSTEM IS BORN Chapter 16 – 1 Part 1.

Do Now: What do you already know about the different kinds of planets in our solar system? Do you already know something specific about them? Write.

Topic # 2 Term # 2 The Local System

The Solar System.

Presentation transcript:

How all the stuff in the solar system was created

Step 1: Nebula forced out of balance by nearby supernova (probably) Step 2: Solar nebula forms, gravity pulls lighter elements toward center forming a protostar. 

Step 3: Protoplanetary disk, or accretion disk, flattens out due to rotation of protostar.

Step 4: Heavier elements stay close to sun and coalesce to form planetessimals, from gravity and heat from collisions. – Terrestrial planets form when gravity makes planetessimal round – Leftover heavy material forms asteroid belt.

Step 5: Sun’s fusion creates solar wind, which blows lighter elements (mostly hydrogen and helium) to outer solar system, creating four large “outer planets.” Sun’s energy doesn’t allow inner planets to be icy or gassy. Leftover, distant icy material forms the Oort cloud.

Formation of gas giant

The Oort cloud is spherical, while all else is flat. – It is the birthplace of comets

Distances and shapes of our solar system

What parts of the solar system will continue to change?