Kepler’s Laws of Planetary Motion STARTER 2 In an elliptical planetary orbit, the sun is a. at the center of the ellipse. b. on the ellipse at the intersection.

Slides:

Advertisements

Similar presentations

Sample Determine the net gravitational force acting on the Earth during a total lunar eclipse. msun = 1.99 x1030 kg mmoon = 7.36 x 1022 kg rsun = 1.5.

Advertisements

Famous Astronomers. Ptolemy Thought the Earth was at the center of the universe and that the other planets revolved around it (GEOcentric model) Thought.

CH 12: Gravitation. We have used the gravitational acceleration of an object to determine the weight of that object relative to the Earth. Where does.

Geocentric Model Earth is center of our Solar System

Kepler’s Laws Of Planetary Motions. Introduction Kepler’s three laws are empirical - they describe a phenomenon without explaining why it occurs. Kepler.

The Solar System Planetary Orbits

Newton’s Law of Universal Gravitation

Bill Nye on Planets and Moons

MARS JOHANNES KEPLER THE SOLAR SYSTEM LAWS OF PLANETARY MOTION.

 Place the answer on your new quiz paper.  _________________ attracts all objects toward each other.  A: Gravity!

Kepler’s first law of planetary motion says that the paths of the planets are A. Parabolas B. Hyperbolas C. Ellipses D. Circles Ans: C.

History of Astronomy - Part II

Planetary Orbits The ancient Greeks (Aristotle and Plato) thought the only perfect shapes were the circle and line. All things fall in a line toward Earth,

9.1.2 – Applications of Ellipses, Other Information.

Kepler’s three laws Kepler’s three laws explain how planets orbit around the sun. These laws are common to any body orbiting around a massive body.

Kepler’s Laws of planetary motion. Ellipse lab. Tycho Brahe Tycho Brahe was a Danish astronomer who is best known for the astronomical observations which.

In this chapter you will:  Learn the nature of gravitational force.  Relate Kepler’s laws of planetary motion to Newton's laws of motion.  Describe.

Planetary Motion 4/28/ b pgs IN: What causes night and day?

EARTH & SPACE SCIENCE Chapter 27 Planets of the Solar System 27.2 Models of the Solar System.

Solving for Keplers 3 laws January 10,2012. Using your Orbit of Mercury you need to apply Kepler’s 3 laws of planetary motion…and write up in.

17-1 Physics I Class 17 Newton’s Theory of Gravitation.

Newton’s Law of Gravitation The “4 th Law”. Quick Review NET FORCE IS THE SUM OF FORCES… IT IS NOT ACTUALLY A FORCE ON ITS OWN!

Chapter 6 - Gravitation Newton’s Law of Gravitation (1687)

Daily Science Pg.30 Write a formula for finding eccentricity. Assign each measurement a variable letter. If two focus points are 450 km away from one another.

Kepler’s Laws What they tell us, and where they come from.

Kepler’s Laws of planetary motion Newton’s law of universal gravitation Free fall acceleration on surface of a planet Satellite motion Lecture 13: Universal.

Kepler’s Laws of Planetary Motion © David Hoult 2009.

Nicolaus Copernicus Tycho Brahe Johannes Kepler

Apollo Missions to the Moon Mr. Steve Heck Milford Junior High School 8 th Grade Earth Science This lesson is designed to engage students to inquire and.

Kepler’s Laws of Planetary Motion - 3 Laws -. Elliptical Orbits Planets travel in elliptical orbits with the sun at one focus. Furthest point = Aphelion.

Gravitation and the Waltz of the Planets Chapter 4.

Planetary Motion 19-1b pgs IN: What causes night and day?

Newton’s Law of Universal Gravitation && Kepler’s Laws of Planetary Motion.

History of Astronomy How have ideas about the solar system and our place in it changed over time? How have ideas about the solar system and our place.

UNIT 7 - UNIVERSAL GRAVITATION Simplified Notes. GRAVITY IS UNIVERSAL  The moon is “constantly falling around the Earth.” It has velocity that keeps.

Kepler’s Three Laws of Planetary Motion. YMXtohttp:// YMXto.

Section Orbital Motion of Satellites and Kepler’s Laws

Geometry of Earth’s Orbit Kepler’s Laws of Planetary Motion.

Gravitation. Chronology Nicolaus Copernicus (1543): First to propose a system of planetary orbits. He argued that planets were in circular orbit around.

Kepler’s Laws. Kepler and the Physics of Planetary Motion Laws of Planetary Motion Law 1 - Law of Ellipses Law 2 - Law of Equal Areas Law 3 - Harmonic.

Newton’s Law of Universal Gravitation. Law of Universal Gravitation.

Topic: Planetary Motion PSSA: D/S8.D.3.1. Objective: TLW differentiate between rotation and revolution. TLW differentiate between rotation and revolution.

Bell Ringer What celestial body is at the center of our solar system? What is celestial body or bodies has the farthest orbit in our solar system? What.

 Danish astronomer ( )  Built an astronomical observatory on an island  Measured positions of stars and planets over a period of 20 years.

Modern Day Astronomers (sort of) The New Guys. The Astronomers Copernicus Galileo Tycho Brahe Johannes Kepler Sir Isaac Newton.

Historical Models of our Solar System and Kepler’s Laws of Planetary Motion.

The Newtonian Synthesis Nicolaus Copernicus 1473 – 1543 Frame of Reference Tycho Brahe Accurate Data Johannes Kepler Emperical Laws.

EARTH & SPACE SCIENCE Chapter 27 Planets of the Solar System 27.2 Models of the Solar System.

Kepler’s Three Laws of Planetary Motion

Kepler’s Laws of Planetary Motion

Chapter 9: Gravity Gravity is the force most familiar to us, and yet, is the least understood of all the fundamental forces of nature.

Newton’s Laws of Motion

Do Now We will be starting with a Kepler’s Law Review today

Physics of the Solar System

Kepler’s Laws of Planetary Motion

Chapter 20 Section 4 Planetary Motion Bellringer

September 12 – 16, 2011 Welcome Assignment

Nicolaus Copernicus Johannes Kepler Tycho Brahe

Aim: How can we explain the laws that control the planets orbits?

Gravitational Fields, Circular Orbits and Kepler

Add to table of Contents:

This slideshow is licensed under a Creative Commons Attribution Non-Commercial 3.0 United States license. For more information about this license see.

Newton’s Law of Universal Gravitation

Gravitational Fields, Circular Orbits and Kepler’s Laws

Kepler’s Three Laws of Planetary Motion

THE EARTH, THE MOON & THE SUN

Kepler’s Laws of Planetary Motion

Newton’s Law of Universal Gravitation

Kepler’s Laws.

Presentation transcript:

Kepler’s Laws of Planetary Motion STARTER 2 In an elliptical planetary orbit, the sun is a. at the center of the ellipse. b. on the ellipse at the intersection of the semi major axis. c. on the ellipse at the intersection of the semi minor axis. d. at the focus.

Kepler’s Laws of Planetary Motion STARTER A month is around thirty days because: a. that gives a year 12 months. b. the moon orbits the Earth in about 30 days. c. the number 365 is divisible by 30. d. the lunar eclipse occurs 30 times each year.

Practice/Application A.Research and write down Kepler’s Three Laws of Planetary Motion in your science notebook. You may use the web ( hyperphysics is a good source) or any text. B.Construct an accurate ellipse using string, cardboard, and push pens. Label the foci, the semi major axis, and the semi minor axis. Draw in the position of the Sun and an orbiting planet. Put this in your science notebook. C.Make a data table for the planets. The data should contain: 1. The mass of each planet in kg. 2. The distance in meters from the planet to the Sun. 3. The period of each planet. Put this in your science notebook. A.Research and write down Kepler’s Three Laws of Planetary Motion in your science notebook. You may use the web ( hyperphysics is a good source) or any text. B.Construct an accurate ellipse using string, cardboard, and push pens. Label the foci, the semi major axis, and the semi minor axis. Draw in the position of the Sun and an orbiting planet. Put this in your science notebook. C.Make a data table for the planets. The data should contain: 1. The mass of each planet in kg. 2. The distance in meters from the planet to the Sun. 3. The period of each planet. Put this in your science notebook.

Notebook Checklist A.Definitions of Kepler’s 3 Laws of Planetary Motion. B.Drawing of Ellipse Construction properly labeled. C.Planetary Data Table with 1. The mass of each planet in kg. 2. The distance in meters from the planet to the Sun. 3. The period of each planet.

Connection Referring to your list of the planets and their periods, which of Kepler’s laws does this confirm? Explain in detail. Referring to your list of the planets and their periods, which of Kepler’s laws does this confirm? Explain in detail.

Exit 3 minute writing: Comment on why you think Kepler’s Laws may have guided Newton in his search for the gravitational law. 3 minute writing: Comment on why you think Kepler’s Laws may have guided Newton in his search for the gravitational law.