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Mars Mission Fadhi Ali, Isaac Alpert, George Kostov, Bilal Shahabuddin Tuesday, May 8 th, 2012 Earth Science - 351.

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Presentation on theme: "Mars Mission Fadhi Ali, Isaac Alpert, George Kostov, Bilal Shahabuddin Tuesday, May 8 th, 2012 Earth Science - 351."— Presentation transcript:

1 Mars Mission Fadhi Ali, Isaac Alpert, George Kostov, Bilal Shahabuddin Tuesday, May 8 th, 2012 Earth Science - 351

2 Mission Statement BIG-F Seismometer aims to place a single geophysical lander on Mars to study its deep interior, with a focus on understanding the processes that shaped the rocky planets of the inner solar system (including Earth) more than four billion years ago.

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5 Chronology of Previous Mars Missions  1960’s and early 1970’s Mariner 3 to Mariner 9  1975 Viking 1 and Viking 2  1996 Mars Pathfinder  2001 Mars Odyssey  2003 Spirit and Opportunity Rovers  2005 Mars Reconnaissance Orbiter  2007 Phoenix  2011 Mars Science Laboratory (Curiosity)

6 What We Know About Mars So Far…….  Presence of volcanoes, lava plains, immense canyons, cratered areas, wind-formed features, and evidence of surface water.  New Cluster Analysis of samples from Viking mission show signs of microbial life in Mars soil.  Recent consensus seems to be shifting towards early Mars being cold and dry rather than warm and wet.

7 Hemispheric Dichotomy The origin and age are still debated, and hypotheses fall into two categories: – The dichotomy was produced by a mega-impact event or several large impacts early in the planet’s history – The dichotomy was produced by crustal thinning in the northern hemisphere by mantle convection, overturning, or other chemical and thermal processes in the planet’s interior (endogenic theories)

8 Viking Missions Although both Viking landers carried a seismometer on board, there was no seismic data collected. Instrument packaging difficulties – The two seismometers were put on the top of the landers. Elucidated information about noises and possibilities, though

9 Mars’s Composition Goal is to solve the mystery of differentiation in planetary formation post-accretion The mean density of Mars is less than that of Earth, Venus, and Mercury but greater than that of the Moon. – Implies that Mars has a smaller total Fe-Ni – Mars is the only terrestrial planet which could have chrondritic abundances or iron

10 Seismometer Capability Seismometer would let us know the internal structure (contextualization) Seismic activity would prove past life Different cores mean different things

11 Olympus Mons

12 Mission To learn about geological history of Mars, and its relevance to past life Landing Site: Olympus Mons – Largest volcano, highest formation on Mars – Extinct – Possible seismic readings Mars is known to be seismically inactive, hope to get readings on Olympus Mons Sampling the volcanic soil could reveal much about Martian history

13 Instruments Seismometer – Simple device for measuring amplitude, frequency of ground oscillations in three dimensions Source: Imperial College London

14 Instruments Spectrometer – Uses radiation (different frequencies) to determine chemical and elemental composition of samples Source: University of Cambridge

15 Technical Considerations Solar-powered, long lifetime Low-risk of dust storms, higher risk of radiation damage from sun -> sensitive instruments must be well-shielded Presence of seismic activity will mean: – Potential for further research, more seismometers (arraying) – Information on planetary dynamics through classification of ground motions.

16 Mission Logistics Launch Site: Cape Canaveral, United States Launch Window: Jan 22 – Feb 9, 2016 Arrival at Mars: ~Nov 20, 2017 – Corresponds with the start of summer on Mars in the year 2017 – Want to maximize exposure to Sun Cost: ~ 500 million USD This mission to Mars is funded by the National Aeronautics and Space Administration

17 Arrival on Mars 1)Upon atmospheric entry, heat shield slows spacecraft 2)Within minutes, parachute is deployed 3)Landing legs are deployed next 4)Spacecraft descends on Mars using rockets 5)Impact is cushioned by airbags This mission to Mars is funded by the National Aeronautics and Space Administration

18 Post Arrival 1)Solar panels deployed (energy source) 2)Relay spacecraft health telemetry back to Earth 3)Begin experiments This mission to Mars is funded by the National Aeronautics and Space Administration

19 Communication with Earth Use UHF relays – Mars Reconnaissance Orbiter – Mars Express This mission to Mars is funded by the National Aeronautics and Space Administration

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