Presentation is loading. Please wait.

Presentation is loading. Please wait.

GEOL 3045: Planetary Geology Lysa Chizmadia Uranus’ Moons Lysa Chizmadia Uranus’ Moons.

Published byEthan Banks Modified over 8 years ago

Similar presentations

Presentation on theme: "GEOL 3045: Planetary Geology Lysa Chizmadia Uranus’ Moons Lysa Chizmadia Uranus’ Moons."— Presentation transcript:

1 GEOL 3045: Planetary Geology Lysa Chizmadia Uranus’ Moons Lysa Chizmadia Uranus’ Moons

2 Introduction  27 named moons –Named after Shakesperian & Alexander Pope characters  Groups –Shepherding Moons –Chaotic Moon Swarm –Puck, Mab & Cupid –Large Inner Satellites –Outer Irregular Satellites  27 named moons –Named after Shakesperian & Alexander Pope characters  Groups –Shepherding Moons –Chaotic Moon Swarm –Puck, Mab & Cupid –Large Inner Satellites –Outer Irregular Satellites Image from: http://solarsystem.nasa.gov/planets/profile.cfm?Display=Moons&Object=Uranus

3 Shepherding Moons  Keep outer epsilon ring well defined  Cordelia –Inner shepherd –15km in diameter  Ophelia –Outer shepherd –16 km in diameter  Must be inner shepherds, but not yet discovered  Keep outer epsilon ring well defined  Cordelia –Inner shepherd –15km in diameter  Ophelia –Outer shepherd –16 km in diameter  Must be inner shepherds, but not yet discovered Image from: http://solarsystem.nasa.gov/planets/profile.cfm?Object=Ura_Cordelia

4 Choatic Moon Swarm  Orbital parameters highly chaotic –Probably collide with each other regularly  8 small satellites –Bianca (21 km radius) –Cressida (33km radius) –Desdemona (27 km radius) –Juliet (42km radius) –Portia (54km radius) –Rosalind (27km radius) –Belinda (33km radius) –Perdita  Orbital parameters highly chaotic –Probably collide with each other regularly  8 small satellites –Bianca (21 km radius) –Cressida (33km radius) –Desdemona (27 km radius) –Juliet (42km radius) –Portia (54km radius) –Rosalind (27km radius) –Belinda (33km radius) –Perdita Images from: http://solarsystem.nasa.gov/planets/profile.cfm?Display=Moons&Object=Uranus

5 Puck, Mab & Cupid  Puck –77km radius –Orbital period: 0.76 days –Inclination: 0.31 degrees  Mab –16 km radius –Orbital period: 0.92 days  Cupid –12km radius –Orbital period: 0.61 days  Puck –77km radius –Orbital period: 0.76 days –Inclination: 0.31 degrees  Mab –16 km radius –Orbital period: 0.92 days  Cupid –12km radius –Orbital period: 0.61 days Image from: http://www.solarviews.com/eng/puck.htm

6 Major Satellites  Miranda –Smallest of 5 –Huge fault canyons  Ariel –Brightest & very young surface –Intersecting valleys  Umbriel –Darkest & ancient –Mysterious bright ring  Titania –Largest moon  Oberon –Heavily cratered  Miranda –Smallest of 5 –Huge fault canyons  Ariel –Brightest & very young surface –Intersecting valleys  Umbriel –Darkest & ancient –Mysterious bright ring  Titania –Largest moon  Oberon –Heavily cratered Image from: http://en.wikipedia.org/wiki/Moons_of_Uranus Image from: http://www.daviddarling.info/images/Uranus_moons.jpg

7 Miranda  Diameter: 470 km  Orbital period: 1.4 days  Eccentricity: 0.0013  Inclination: 4.23  (high)  Density: 1.20 g/cm 3  Fault canyons –20km deep  Mixture of young & old terrains –Jumbled together –Tidal forces?  Diameter: 470 km  Orbital period: 1.4 days  Eccentricity: 0.0013  Inclination: 4.23  (high)  Density: 1.20 g/cm 3  Fault canyons –20km deep  Mixture of young & old terrains –Jumbled together –Tidal forces? Image from: http://www.daviddarling.info/encyclopedia/U/Uranusmoons.html

8 Ariel  Diameter: 1156 km  Orbital period: 2.5 days  Eccentricity: 0.0012  Inclination: 0.26   Density: 1.67 g/cm 3  Mixture of heavily cratered terrains & smooth plains  Dry ice detected on surface  Interconnected valleys –Chasmata –100s km long –>10 km deep –Floors smoothed by fluid  Diameter: 1156 km  Orbital period: 2.5 days  Eccentricity: 0.0012  Inclination: 0.26   Density: 1.67 g/cm 3  Mixture of heavily cratered terrains & smooth plains  Dry ice detected on surface  Interconnected valleys –Chasmata –100s km long –>10 km deep –Floors smoothed by fluid Image from: http://www.daviddarling.info/encyclopedia/U/Uranusmoons.html

9 Umbriel  Diameter: 1169 km (~ Ariel)  Orbital period: 4.14 days  Eccentricity: 0.0039  Inclination: 0.36   Density: 1.40 g/cm 3 (~ Ariel)  Very old, heavily cratered surface  Mysterious bright ring –Wunda –140 km diameter  Diameter: 1169 km (~ Ariel)  Orbital period: 4.14 days  Eccentricity: 0.0039  Inclination: 0.36   Density: 1.40 g/cm 3 (~ Ariel)  Very old, heavily cratered surface  Mysterious bright ring –Wunda –140 km diameter Image from: http://www.daviddarling.info/encyclopedia/U/Uranusmoons.html Wunda

10 Titania  Orbital period: 8.7 days  Eccentricity: 0.0011  Inclination: 0.34   Density: 1.72 g/cm 3  Largest moon of Uranus  Mixture of cratered terrains & interconnected valleys –Largest trench 1600km long –Faults  internal forces  Orbital period: 8.7 days  Eccentricity: 0.0011  Inclination: 0.34   Density: 1.72 g/cm 3  Largest moon of Uranus  Mixture of cratered terrains & interconnected valleys –Largest trench 1600km long –Faults  internal forces Image from: http://www.daviddarling.info/encyclopedia/U/Uranusmoons.html Image from:http://www.solarviews.com/eng/titania.htm

11 Oberon  Diameter: 1523 km  Orbital period: 13.5 days  Eccentricity: 0.0008  Inclination: 0.10   Density: 1.64 g/cm 3  2nd Largest moon of Uranus  Heavily cratered w/ bright rays  S hemisphere has large faults  Diameter: 1523 km  Orbital period: 13.5 days  Eccentricity: 0.0008  Inclination: 0.10   Density: 1.64 g/cm 3  2nd Largest moon of Uranus  Heavily cratered w/ bright rays  S hemisphere has large faults Image from: http://www.daviddarling.info/encyclopedia/U/Uranusmoons.html 6 km high

12 Outer Irregular Satellites  Retrograde & highly inclined  5 moons –Caliban –Stephano –Sycorax –Prospero –Setebos  Retrograde & highly inclined  5 moons –Caliban –Stephano –Sycorax –Prospero –Setebos Image from: http://en.wikipedia.org/wiki/Moons_of_Uranus Image from: http://www.solarviews.com/eng/caliban.htm

13 Summary  Inner shepherd moons –Cordelia & Ophelia  Puck, Mab & Cupid  Largest –Miranda: heavily cratered terrain mixed w/ smooth blocks –Ariel: brightest & has chasmata with smooth floors –Umbriel: darkest & has bright ring crater on N pole –Titania: largest moon & mixture of cratered terrain & trenchs & faults –Oberon: highly cratered  Outer irregular satellites –Retrograde & highly inclined –Probable captured asteroids  Inner shepherd moons –Cordelia & Ophelia  Puck, Mab & Cupid  Largest –Miranda: heavily cratered terrain mixed w/ smooth blocks –Ariel: brightest & has chasmata with smooth floors –Umbriel: darkest & has bright ring crater on N pole –Titania: largest moon & mixture of cratered terrain & trenchs & faults –Oberon: highly cratered  Outer irregular satellites –Retrograde & highly inclined –Probable captured asteroids

Download ppt "GEOL 3045: Planetary Geology Lysa Chizmadia Uranus’ Moons Lysa Chizmadia Uranus’ Moons."

Similar presentations

28.3 Satellites of Other Planets

28.3 Satellites of Other Planets
The Outer Worlds.

The Outer Worlds.
Uranus By Lizzie Facts Pictures Moons. Planet Facts 1 Uranus is the 7 th planet from the sun Uranus has 17 moons (perhaps more!) Uranus’s day is about.

Uranus By Lizzie Facts Pictures Moons. Planet Facts 1 Uranus is the 7 th planet from the sun Uranus has 17 moons (perhaps more!) Uranus’s day is about.
The Man Himself An assortment of verified Shakespearean facts.

The Man Himself An assortment of verified Shakespearean facts.

THE MAN HIMSELF An assortment of verified Shakespearean facts.

THE MAN HIMSELF An assortment of verified Shakespearean facts.
The Moons of the Gas Giants Astronomy 311 Professor Lee Carkner Lecture 20.

The Moons of the Gas Giants Astronomy 311 Professor Lee Carkner Lecture 20.
August 25 th, 1989 Voyager 2 encounters with Uranus and Neptune January 24 th, 1986August 25 th, 1989.

August 25 th, 1989 Voyager 2 encounters with Uranus and Neptune January 24 th, 1986August 25 th, 1989.
URANUS By: Ceni 6B. Uranus Uranus is the seventh planet from the Sun and the third of the 4 gas giants. Uranus is 14.5 bigger then Earth. It have that.

URANUS By: Ceni 6B. Uranus Uranus is the seventh planet from the Sun and the third of the 4 gas giants. Uranus is 14.5 bigger then Earth. It have that.
The Moons of Our Solar System. How many moons are in our solar system? 1? 9? 61? 159? 159 and counting!

The Moons of Our Solar System. How many moons are in our solar system? 1? 9? 61? 159? 159 and counting!
Solar System Łukasz Kowalik MA 42. Gymnasium, Szczecin The sun and its planets.

Solar System Łukasz Kowalik MA 42. Gymnasium, Szczecin The sun and its planets.
GEOL3045: Planetary Geology Lysa Chizmadia Mercury From Mariner 10 to Messenger Lysa Chizmadia Mercury From Mariner 10 to Messenger.

GEOL3045: Planetary Geology Lysa Chizmadia Mercury From Mariner 10 to Messenger Lysa Chizmadia Mercury From Mariner 10 to Messenger.
General Astronomy Moons Many slides are taken from lectures by Dr David Wood, San Antonio College.

General Astronomy Moons Many slides are taken from lectures by Dr David Wood, San Antonio College.
Chapter 24: Modified. Uranus Chance discovery by William Herschel in 1781. Scanning the sky for nearby objects using parallax.

Chapter 24: Modified. Uranus Chance discovery by William Herschel in Scanning the sky for nearby objects using parallax.
Uranus.

Uranus.
Astronomy 101 The Solar System Tuesday, Thursday Tom Burbine

Astronomy 101 The Solar System Tuesday, Thursday Tom Burbine
Unique Uranus Ariel Toombs Kimberly Taylor Unique Uranus.

Unique Uranus Ariel Toombs Kimberly Taylor Unique Uranus.
Galileans to Scale Interiors of the Galileans.

Galileans to Scale Interiors of the Galileans.
Dominic,sergio,kyle, Tyler. Uranus Info. Uranus was one of the first planets to be discovered. It is the seventh planet in the solar system. Scientist.

Dominic,sergio,kyle, Tyler. Uranus Info. Uranus was one of the first planets to be discovered. It is the seventh planet in the solar system. Scientist.
BY: Leo Barba, James Hayden Conner, Christian Rodriguez.

BY: Leo Barba, James Hayden Conner, Christian Rodriguez.

Similar presentations

Ads by Google