Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Solar System Missions. planets not shown to scale >> MercuryVenusEarthMarsJupiterSaturnUranusNeptunePluto Mean Distance from the Sun (AU)0.38710.723311.5245.2039.53919.1930.0639.48.

Published byGladys Watts Modified over 8 years ago

Similar presentations

Presentation on theme: "The Solar System Missions. planets not shown to scale >> MercuryVenusEarthMarsJupiterSaturnUranusNeptunePluto Mean Distance from the Sun (AU)0.38710.723311.5245.2039.53919.1930.0639.48."— Presentation transcript:

1 The Solar System Missions

2 planets not shown to scale >> MercuryVenusEarthMarsJupiterSaturnUranusNeptunePluto Mean Distance from the Sun (AU)0.38710.723311.5245.2039.53919.1930.0639.48 Sidereal period of orbit (years)0.240.6211.8811.8629.4684.01164.79248.54 Mean Orbital Velocity (km/sec)47.8935.0429.7924.1413.069.646.815.434.74 Orbital Eccentricity0.2060.0070.0170.0930.0480.0560.0460.0100.248 Inclination to ecliptic (degrees)7.003.4001.851.302.490.771.7717.15 Equatorial Radius (km)2439605263783397714906026825559252691160 Polar Radius (km)same 6357338066854543602497324340same Mass of planet (Earth=1)0.060.8210.11317.8995.1814.5317.140.002 Mean density (grams/centimeter³ )5.435.255.523.951.330.691.291.642.03 Body rotation period (hours)1408583223.9324.629.9210.6617.2416.11153.3 Tilt of equator to orbit (degrees)2177.323.4525.193.1226.7397.8629.6122.46 Number of observed satellites0012>28302481

3 Properties Mass: Planetary masses are determined by measuring the orbital characteristics of moons, or orbiting satellites sent from earth. From Newton’s Laws, the acceleration of the orbiting object (assuming a circular orbit) is From the Universal Law of Gravity a = G {M / r 2 } = v 2 / r where G = 6.67 x 10 -11 Nm 2 /Kg 2 M is the mass of the planet r is the radius of the orbit V is the speed of the orbiting object

4 Properties Mass: Planetary masses are determined by measuring the orbital characteristics of moons, or orbiting satellites sent from earth. From Newton’s Laws, the acceleration of the orbiting object (assuming a circular orbit) is Note: the speed can easily be determined from knowledge of the radius of the orbit and the period. In one period, the object must travel a distance equal to the circumference of the orbit: v = 2  r / T where 2  r is the circumference of the orbit T is the period

5 Properties Mass: Planetary masses are determined by measuring the orbital characteristics of moons, or orbiting satellites sent from earth. From Newton’s Laws, the acceleration of the orbiting object (assuming a circular orbit) is Therefore: M = r v 2 / G where G = 6.67 x 10 -11 Nm 2 /Kg 2 M is the mass of the planet r is the radius of the orbit

6 Properties Density: Once the mass of the planet is known, the density is computed from the calculated mass and the observed angular size of the object. d = m / V where D is the density V is the volume

7 Properties Atmosphere: Existence determined by a tradeoff between the gravitation attraction on particles and the speed of the particles (based upon the their temperature).

8 Properties Water: Big current question. Answers to the existence of water on planets and moons is under active investigation.

Download ppt "The Solar System Missions. planets not shown to scale >> MercuryVenusEarthMarsJupiterSaturnUranusNeptunePluto Mean Distance from the Sun (AU)0.38710.723311.5245.2039.53919.1930.0639.48."

Similar presentations

All of the planets in our solar system revolve around our sun. Today you will investigate the speeds at which they move around. Orbiting Our Sun.

All of the planets in our solar system revolve around our sun. Today you will investigate the speeds at which they move around. Orbiting Our Sun.
The Beginning of Modern Astronomy

The Beginning of Modern Astronomy
C.M. Rodrigue, 2007 Geography, CSULB Mars: Basic Planetary Characteristics Geography 494-01 S/07 Dr. Christine M. Rodrigue.

C.M. Rodrigue, 2007 Geography, CSULB Mars: Basic Planetary Characteristics Geography S/07 Dr. Christine M. Rodrigue.
Ch12-1 Newton’s Law of Universal Gravitation Chapter 12: Gravity F g = Gm 1 m 2 /r 2 G = 6.67 x 10 -11 Nm 2 /kg 2.

Ch12-1 Newton’s Law of Universal Gravitation Chapter 12: Gravity F g = Gm 1 m 2 /r 2 G = 6.67 x Nm 2 /kg 2.
Universal Gravitation

Universal Gravitation
Chapter 7 Review.

Chapter 7 Review.
Newton’s Law of Gravity

Newton’s Law of Gravity
Chapter-5: Circular Motion, the Planets, and Gravity Circular Motion: Centripetal acceleration Centripetal force Newton’s law of universal gravitation.

Chapter-5: Circular Motion, the Planets, and Gravity Circular Motion: Centripetal acceleration Centripetal force Newton’s law of universal gravitation.
Today’s APODAPOD  Start Reading NASA website (Oncourse)  2 nd Homework due TODAY  IN-CLASS QUIZ NEXT FRIDAY!! The Sun Today A100 Solar System.

Today’s APODAPOD  Start Reading NASA website (Oncourse)  2 nd Homework due TODAY  IN-CLASS QUIZ NEXT FRIDAY!! The Sun Today A100 Solar System.
Physics I Honors 1 Specific Forces Fundamental Forces Universal Gravitation.

Physics I Honors 1 Specific Forces Fundamental Forces Universal Gravitation.
Newtonian Gravitation and Orbits

Newtonian Gravitation and Orbits
Welcome to Physics JEOPARDY

Welcome to Physics JEOPARDY
Chapter 7 Law of Gravity & Kepler’s Laws

Chapter 7 Law of Gravity & Kepler’s Laws
Gravity & orbits. Isaac Newton (1642-1727) developed a mathematical model of Gravity which predicted the elliptical orbits proposed by Kepler Semi-major.

Gravity & orbits. Isaac Newton ( ) developed a mathematical model of Gravity which predicted the elliptical orbits proposed by Kepler Semi-major.
Newton’s Law of Universal Gravitation

Newton’s Law of Universal Gravitation
Newton’s Law of Gravitation. Newton concluded that gravity was a force that acts through even great distances Newton did calculations on the a r of the.

Newton’s Law of Gravitation. Newton concluded that gravity was a force that acts through even great distances Newton did calculations on the a r of the.
Newton’s Law of Gravitation. Newton concluded that gravity was a force that acts through even great distances Newton did calculations on the a r of the.

Newton’s Law of Gravitation. Newton concluded that gravity was a force that acts through even great distances Newton did calculations on the a r of the.
Algebraic Statements And Scaling. Newton’s Laws of Motion (Axioms) 1.Every body continues in a state of rest or in a state of uniform motion in a straight.

Algebraic Statements And Scaling. Newton’s Laws of Motion (Axioms) 1.Every body continues in a state of rest or in a state of uniform motion in a straight.
CH-5: Circular Motion,Planets, and Gravity

CH-5: Circular Motion,Planets, and 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.

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.

Similar presentations

Ads by Google