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Power. Joseph T. Wunderlich, Ph.D. “Lunar Roving Vehicle” (LRV). ELECTRICAL POWER. Subsystems Validation. Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars , Springer; 1 edition, August 1, 2006. “Lunar Roving Vehicle” (LRV).

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Power

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  1. Power Joseph T. Wunderlich, Ph.D.

  2. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Subsystems Validation Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  3. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER POWER DEMAND Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006. 4 Motors and Brakes

  4. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER POWER SUPPLY (STORAGE) NO GENERATION Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  5. “Lunar Roving Vehicle” (LRV) - ELECTRICAL POWER - HARDENING FOR SPACE Motors Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  6. “Lunar Roving Vehicle” (LRV) - ELECTRICAL POWER - HARDENING FOR SPACE Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  7. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  8. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  9. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  10. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  11. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  12. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  13. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  14. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  15. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  16. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  17. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  18. “Lunar Roving Vehicle” (LRV) ELECTRICAL POWER Extensive TESTING SOURCE: Boeing Company and NASA (1971) LRV operations handbook. appendix A performance data. Document LS006-002-2H.

  19. ELECTRICAL POWER Mars Pathfinder “Sojourner” Mars Rovers Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  20. ELECTRICAL POWER POWER DEMAND Mars Pathfinder “Sojourner” Mars Rovers Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006. Arm 6 Motors

  21. ELECTRICAL POWER POWER GENERATION Mars Pathfinder “Sojourner” Mars Rovers Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  22. ELECTRICAL POWER SOLAR POWER GENERATION • DISTANCES FROM SUN: • To Moon = ~1 AU (Astronomical Unit) • To Mars = 1.524 AU • To Europa = ~5.203 AU Image from http://www.punahou.edu/acad/sanders/geometrypages/GP14Astronomy.html

  23. ELECTRICAL POWER SOLAR POWER GENERATION • DISTANCES FROM SUN: • To Moon = ~1 AU (Astronomical Unit) • To Mars = 1.524 AU • To Europa = ~5.203 AU Image from http://www.punahou.edu/acad/sanders/geometrypages/GP14Astronomy.html

  24. ELECTRICAL POWER “Spirit” & “Opportunity” POWER DEMAND Mars Rovers Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006. Arm 6 Motors

  25. ELECTRICAL POWER “Spirit” & “Opportunity” POWER GENERATION Mars Rovers Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  26. ELECTRICAL POWER “Spirit” & “Opportunity” Mars Rovers 2004 POWER GENERATION Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006.

  27. ELECTRICAL POWER Mars Science Lab Mars Rovers POWER DEMAND Image from: Young, A.H. Lunar and planetary rovers: the wheels of Apollo and the quest for mars, Springer; 1 edition, August 1, 2006. 6 Motors

  28. ELECTRICAL POWER SOLAR POWER GENERATION POTENTIAL OK • DISTANCES FROM SUN: • To Moon = ~1 AU (Astronomical Unit) • To Mars = 1.524 AU • To Europa = ~5.203 AU Image from http://www.punahou.edu/acad/sanders/geometrypages/GP14Astronomy.html

  29. ELECTRICAL POWER Mars Science Lab Mars Rovers Nuclear not dependent on Martian day and seasons that effect solar collection And there is no need to worry about rover path as a function of obtaining best solar angles Nuclear Power Image from: http://www.space4peace.org/mars/nuke_mars_rover.htm

  30. Europa RoverOptional course project Concept Paper Image from: http://photojournal.jpl.nasa.gov/catalog/PIA00502

  31. ELECTRICAL POWER Europa Rover SOLAR POWER GENERATION WOULD BE DIFFCULT • DISTANCES FROM SUN: • To Moon = ~1 AU (Astronomical Unit) • To Mars = 1.524 AU • To Europa = ~5.203 AU Optional course project Concept PaperSee course syllabus for details Image from http://www.punahou.edu/acad/sanders/geometrypages/GP14Astronomy.html

  32. Radioisotope Thermoelectric Generators ELECTRICAL POWER Image from: http://www.space4peace.org/mars/nuke_mars_rover.htm See more on these small nuclear power sources (Radioisotope Thermoelectric Generators) used in space exploration since 1961 at: http://solarsystem.nasa.gov/multimedia/downloads/Standard_RPS_Report_Final_011205.pdf

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