Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Terrestrial Planets, Part III Mars. MARS The God of War.

Published byBenedict Joseph Morris Modified over 9 years ago

Similar presentations

Presentation on theme: "The Terrestrial Planets, Part III Mars. MARS The God of War."— Presentation transcript:

1 The Terrestrial Planets, Part III Mars

2 MARS The God of War

3 Physical Data l Diameter: 6,794 km (0.531 D earth ) l Mass: 6.40x10 27 g (0.107 M earth ) l Density: 3.96 g/cm 3 l Rotation Period: 24.6 hours l Tilt of Axis: 25 o l Surface Temperature: 130-290 K

4 Physical Data l Orbital Semi-major Axis: 1.524 AU l Orbital Period: 1.881 years l Orbital Inclination: 2 o l Orbital Eccentricity: 0.093 l Surface Gravity: 0.38 Earth Gravity

5 Physical Data l Satellites: 2 l Magnetic Field: no l Surface Pressure: 0.01 Earth’s Pressure

6 Mars’ Interior l Relatively small core size compared to the mantle l Smallest core of all the terrestrial planets compared to the overall volume (~9%) l Exact composition of mantle is unknown 3393 km 1520 km CORE ( iron + iron sulfide ) MANTLE ( iron-magnesium silicates ? ) CRUST ( aluminum silicates )

7 Mars’ Atmosphere l Clouds Planet-wide Clouds ( from Hubble) A Cyclonic Event

8 Mars’ Atmosphere l 95% Carbon Dioxide l 2.7% Nitrogen l 1.6% Argon l 0.6% Carbon Monoxide l 0.15% Oxygen l 0.03% Water Vapor (variable)

9 Mars’ Surface Polar Caps: l Composed of both carbon dioxide and water South Polar Cap: l Consists mainly of frozen carbon dioxide. l This cap never melts completely. l This picture shows it at its minimum size of 400 km (249 miles).

10 Mars’ Surface North Polar Cap: l Consists of mainly water-ice. Seasonal Changes: l When spring begins in a hemisphere, the corresponding cap shrinks as the carbon dioxide turns directly into a gas.

11 Mars’ Surface l Polar caps change in size depending on the Martian seasons.

12 Mars’ Surface Olympus Mons: l Largest mountain (volcano) in the Solar System l 24 km (78,000 ft) high l Base is 500 km in diameter l Rimmed by a 6 km (20,000 ft) high cliff 500 km

13 Mars’ Surface Valles Marineris: l Huge canyon l Would stretch coast to coast across the U.S. l It is 4000 km (2500 miles) long and up to 6 km (4 miles) deep 4000 km

14 Mars’ Surface Flight over the Martian Terrain, including Valles Marineris and Three Volcanos m

15 Mars’ Surface Viking Lander: l Landed in Chryse Planitia on July 20, 1976 l Took panoramic pictures of the surface l On-board experiments tested soil for signs of life. Results were inconclusive.

16 Mars’ Surface Viking Photos: To the right: Morning ground frost Below: Panorama and Mars’ pink sky.

17 Mars’ Surface Pathfinder Photos: Rover and “Yogi” Martian Sunset

18 Mars’ Surface Water on Mars? l There is evidence of liquid water once flowing over the surface of Mars. Fluvial Features: l Created by water flowing around a crater (right). Probably caused by a flood.

19 Mars’ Surface Dry Riverbeds: l Created by slow erosion of running water.

20 Mars’ Surface Dust Storms: l Mars’ surface winds churn up surface material l Storm sizes range in size from small local “dust-devils” to plumes that sweep over the entire planet (right)

21 Mars’ Moons PHOBOS: “Phobos” is Greek for “fear” Mars’ innermost moon Size: 27 x 21.6 x 18.8 km Above: Crater Stickney Left: Image by Soviet spacecraft Phobos 2, launched in 1988

22 Mars’ Moons DEIMOS: “Deimos” is Greek for “panic” Smallest known moon in the solar system: 15 x 12.2 x 11 km Phobos and Deimos are probably captured asteroids

23 Martian Myths of Yesterday Canals of Mars: l “Discovered” by G.V. Schiaparelli in 1877 l Percival Lowell (below) built an observatory in 1894 pricipally for the study of the Martian canals l The canals are actually optical illusions

24 Martian Myths of Today “The Face”: l Lies in the Cydonia region, a region of weathered, isolated hills l One hill resembling a face was photograghed by Viking 1 Some people believe this is a monument built by a Martian intelligence, and that other surface features resemble pyramids, cities, and fortresses

Download ppt "The Terrestrial Planets, Part III Mars. MARS The God of War."

Similar presentations

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.
Red Planet Mars Chapter Thirteen.

Red Planet Mars Chapter Thirteen.
Mars. Essential Points 1.Mars is about half the size of Earth 2.Mars has a thin carbon dioxide atmosphere 3.Mars has volcanoes and faults but no plate.

Mars. Essential Points 1.Mars is about half the size of Earth 2.Mars has a thin carbon dioxide atmosphere 3.Mars has volcanoes and faults but no plate.
Lecture Outlines Astronomy Today 8th Edition Chaisson/McMillan © 2014 Pearson Education, Inc. Chapter 10.

Lecture Outlines Astronomy Today 8th Edition Chaisson/McMillan © 2014 Pearson Education, Inc. Chapter 10.
Mars Astronomy 311 Professor Lee Carkner Lecture 14.

Mars Astronomy 311 Professor Lee Carkner Lecture 14.
Mars Astronomy 311 Professor Lee Carkner Lecture 14.

Mars Astronomy 311 Professor Lee Carkner Lecture 14.
Mars Astronomy 311 Professor Lee Carkner Lecture 14.

Mars Astronomy 311 Professor Lee Carkner Lecture 14.
Mercury = 5.4 g/cm 3 (Earth 5.5 g/cm 3 ) = 0.38 that of Earth Mass Radius Density Gravity = 3.3 x 10 26 g = 0.055 M Earth  = 2439 km = 0.38 R Earth Semimajor.

Mercury = 5.4 g/cm 3 (Earth 5.5 g/cm 3 ) = 0.38 that of Earth Mass Radius Density Gravity = 3.3 x g = M Earth  = 2439 km = 0.38 R Earth Semimajor.
Interiors of Terrestrial Planets. Mercury MEAN RADIUS: 2439.7 km MASS: 0.055 (Earth=1) DENSITY: 5.43 (g/cm^3) GRAVITY: 0.376 (Earth=1) ORBIT PERIOD: 87.97.

Interiors of Terrestrial Planets. Mercury MEAN RADIUS: km MASS: (Earth=1) DENSITY: 5.43 (g/cm^3) GRAVITY: (Earth=1) ORBIT PERIOD:
Earth Diameter 12756km Rotation Period 24 hours Orbital Period 365.25 days Distance from Sun150 x 10 6 km Orbit Eccentricity/Tilt 0.02 / 23.3 degrees Temperature14C.

Earth Diameter 12756km Rotation Period 24 hours Orbital Period days Distance from Sun150 x 10 6 km Orbit Eccentricity/Tilt 0.02 / 23.3 degrees Temperature14C.
ISP 205 - Astronomy Gary D. Westfall1Lecture 11 The Planet Venus The Moon and Mercury are geologically dead Venus, Earth, and Mars are still active geologically.

ISP Astronomy Gary D. Westfall1Lecture 11 The Planet Venus The Moon and Mercury are geologically dead Venus, Earth, and Mars are still active geologically.
Made by Vlad Stegariu and Stefan Popovici National College, Iasi, Romania.

Made by Vlad Stegariu and Stefan Popovici National College, Iasi, Romania.
Information of Mars Mars is the fourth planet from the Sun and is commonly referred to as the Red Planet. The rocks and soil have a red or pink hue due.

Information of Mars Mars is the fourth planet from the Sun and is commonly referred to as the Red Planet. The rocks and soil have a red or pink hue due.
Red Planet Mars Chapter Thirteen. Guiding Questions 1.When is it possible to see Mars in the night sky? 2.Why was it once thought that there are canals.

Red Planet Mars Chapter Thirteen. Guiding Questions 1.When is it possible to see Mars in the night sky? 2.Why was it once thought that there are canals.
The Solar System.

The Solar System.
Mars: The Red Planet By: Kat Saddler.

Mars: The Red Planet By: Kat Saddler.
The Jetsons Go to “Mars”

The Jetsons Go to “Mars”
PLANETS. Solar System Our solar system consists of the sun, eight planets, moons, dwarf planets (or plutoids), an asteroid belt, comets, meteors, and.

PLANETS. Solar System Our solar system consists of the sun, eight planets, moons, dwarf planets (or plutoids), an asteroid belt, comets, meteors, and.
The Inner Planets. Mercury Small Weak gravitational force No atmosphere Many craters.

The Inner Planets. Mercury Small Weak gravitational force No atmosphere Many craters.
The Terrestrial Planets, Part I

The Terrestrial Planets, Part I

Similar presentations

Ads by Google