Low Energy Transfer Applications MWL - 1 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics New Mission Concepts & Orbits.

Slides:

Advertisements

Similar presentations

Chapter 17 Lesson 4 By: Charlotte Brookshire, Lacey White Eagle,

Advertisements

Low Energy Transfer Applications MWL - 1 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Shoot the Moon Shadowing Unstable.

Vocabulary Moon, Earth, Sun. System A collection of parts working together to perform a job.

Asteroid Tour Trajectory D. Hyland Nov 21, Voyage Concepts We sketch potential trajectories for our deep space vessel: –Initial voyage from LEO.

Movement in Space Moon Phases SeasonsEclipsesTides

Slideshow P2: The Moon. The Moon is the nearest natural object to us in space.

SPACEFLIGHT DYNAMICS Course 2602 Department of Physics and Astronomy Professor Bob Warwick.

Cycles of the Sky Chapter 3:. The Tidally Locked Orbit of the Moon The moon is rotating with the same period around its axis as it is orbiting Earth (tidally.

Analemma Time Mean Solar Time: Time based on the average time between meridian crossings of the Sun. Each day is exactly 24 hours. Apparent Solar Time:

Theories of the Origin of the Moon. Theory One early theory was that the moon is a sister world that formed in orbit around Earth as the Earth formed.

LECTURE 3, AUGUST 31, 2010 ASTR 101, SECTION 3 INSTRUCTOR, JACK BRANDT 1ASTR 101-3, FALL 2010.

8/6/2002 AIAA/AAS Astrodynamics Specilaist Conference JPL Caltech Lunar Orbit Lunar Sample Return via.

Phases of the Moon.

Low Energy Transfer Applications MWL - 1 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Low Energy Transfers in the.

Low-Thrust Transfers from GEO to Earth-Moon Lagrange Point Orbits Andrew Abraham Moravian College, 2013.

Earth, Sun, & Moon By Ms. Ochoa. Science Science 4- I know that Earth orbits the Sun and that the Moon orbits Earth.

Earth and Space Your name.

Eclipses 5/19/ c pgs IN: Which two planets do not have moons? Why not?

Space Cycles Thinking Questions. Why does a solar eclipse last for only a few minutes in any one location?

The Moon’s Phases. Sun The view from Earth I.Eclipses A. A solar eclipse only occurs at a _____________. B. A lunar eclipse only occurs at a ______________.

Moon Phases and Eclipses. Moon Phases  Half the Moon always is illuminated, but as it orbits us, our view of the bright half changes.

The InterPlanetary Superhighway and the Development of Space

As the moon revolves around the Earth the illuminated side of the moon is not always visible from Earth - this develops the phases of the moon.

Space Mission Design: Interplanetary Super Highway Hyerim Kim Jan. 12 th st SPACE Retreat.

TOPIC #1: Chapter 22 Origin of Modern Astronomy. Section 2: The Earth, Moon, Sun System Earth has two forms of motion: Rotation, which is the turning.

Earth and Moon in Space.

The Solar System and Beyond The Moon. Gravity also keeps the moon in orbit around the Earth. The moon orbits the Earth every… …month (28 days)

Effects of the Earth & Moon’s Orbits

- Review phases of the moon and the lunar calendar - Observe the properties of thermal conductors and insulators - Combine observations and geometry to.

Earth in Space Section 1-1 P

 Name the moon phase. 1. Solar- moon is between Earth and Sun This only occurs at new moon phase.

Gravity and Motion The strength of the force of gravity between two objects depends on two factors: the mass of the objects and the distance between them.

Lunar Sample Return via the Interplanetary Supherhighway

Topic 4. What is the motion of the moon around Earth? The moon revolves around the Earth in a elliptical orbit that is titled 5 degrees from the Earth’s.

Phases of the Moon and Eclipses LunarPhasesanhdEclipseAnimate.ppt.

How many days are required for the Moon to go from one full-Moon phase to the next full-Moon phase when viewed from Earth? (1) 24 (2) 27.3 (3) 29.5 (4)

THE LUNAR CYCLE. The Lunar Cycle The moon orbits (revolution) around the Earth Takes about 28 days (one month) Causes the phases of the moon that we see.

SPACE REVIEW. Rules A group will pick a question and have 30 seconds to answer. If they do not get the answer correct, the next group may steal the question.

Solar and Lunar Eclipses Which is lunar or solar? Why do we not have an eclipse every month? Why is the moon orange/ red? When will they happen next?

JIMO Team MeetingJune 17, 2004 Europa Orbiter Study Update Rodney L. Anderson Martin W. Lo.

1 PHASES OF THE MOON STUDY GUIDE. 2 3 What moon phase? waxing crescent.

Eclipses. EQ: Why do solar and lunar eclipses occur? S6E2b. Explain the alignment of the earth, moon, and sun during solar and lunar eclipses. Textbooks.

Sun-Earth-Moon Systems ES-3b – Seasons, Moon Phases, Eclipses.

Lunar & Solar Eclipses. The moon's orbit around Earth is slightly tilted with respect to the orbit around the sun. As a result, the moon travels above.

Jeopardy $100 $200 $300 $400 $500 Vocabulary $100 $200 $300 $400 $500 Name that Region $100 $200 $300 $400 $500 Where is my home? $100 $200 $300 $400 $500.

ASTRONOMY HUBBLE DEEP FIELD TELESCOPE. Big Bang – Most widely accepted scientific theory for origin of the universe.  Evidence  1. Red shift/blue shift.

AIM: Phases of the Moon Aim: Earth and the moon interactions Do Now:

PHASES OF THE MOON STUDY GUIDE

Giant Impact Theory At the time Earth formed 4.5 billion years ago, other smaller planetary bodies were also growing. One of these hit earth late in Earth's.

Tides & Eclipses Astronomy Page 12 ©Mark Place,

D I s , a ·.... l8l8.

Natural Sciences and Technology Grade 6

During which lunar phase may the moon be “in between” the Earth and sun? NEW MOON.

The Solar System Moons.

AIM: Phases of the Moon Aim: Earth and moon interactions Do Now:

ARTEMIS: Lunar Orbit Geometry

Warm Up 5/7/18 In your own words, explain the difference between the heliocentric and geocentric models of the universe.

Chapter 19: Earth, Moon, and Sun Section 1: Earth in Space

19.3 Phases, Eclipses, Tides Key concepts: What causes the phases of the moon? What are solar and lunar eclipses? What causes the tides? Key terms: phases,

Earth’s Place in Space Unit 12, Section 1.

Thursday 5/17/18 Notebook Entry: How is picture A different from picture B? What is the name of A? What is the name of B? A B.

' 1 A ./.\.l+./.\.l

Moon Phases and Eclipses 3/28/15

Tides & Eclipses Astronomy Page 12 ©Mark Place,

LEQ: What are the two major motions of the Earth’s Moon?

Presentation transcript:

Low Energy Transfer Applications MWL - 1 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics New Mission Concepts & Orbits

Low Energy Transfer Applications MWL - 2 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics

Low Energy Transfer Applications MWL - 3 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Double-Lobe DRO

Low Energy Transfer Applications MWL - 4 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Lenticular DRO

Low Energy Transfer Applications MWL - 5 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Egg-shaped DRO

Low Energy Transfer Applications MWL - 6 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics 4-Looped DRO

Low Energy Transfer Applications MWL - 7 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DROs in Inertial and Rotating Frames

Low Energy Transfer Applications MWL - 8 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Phase Space Periodic Orbits

Low Energy Transfer Applications MWL - 9 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Locations in Phase Space

Low Energy Transfer Applications MWL - 10 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 1 month

Low Energy Transfer Applications MWL - 11 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 2 months

Low Energy Transfer Applications MWL - 12 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 3 months

Low Energy Transfer Applications MWL - 13 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Now with more trajectories (the last one was 6)

Low Energy Transfer Applications MWL - 14 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 1 month LL 3 LL 4 LL 5 Earth

Low Energy Transfer Applications MWL - 15 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 2 months EL 1 EL 2 EL 1

Low Energy Transfer Applications MWL - 16 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 3 months EL 1 EL 2 EL 1

Low Energy Transfer Applications MWL - 17 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Lunar L 1 Stable Manifold, “DNA” Orbit From Szebehely, “Theory of Orbits”

Low Energy Transfer Applications MWL - 18 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 3 months LL 3 LL 4 LL 5

Low Energy Transfer Applications MWL - 19 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics DRO Manifolds Unstable Manifold: 3 months Hits the moon right there! Hits the moon somewhere…? LL 1 LL 2 DRO

Low Energy Transfer Applications MWL - 20 JPL 2004 Summer Workshop on Advanced Topics in Astrodynamics Stable and Unstable DRO Manifolds The unstable manifold (red) hits the moon in many different ways