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- Arxiv:1911.08235V1
- Answer Key for Teachers: Lunar Orbit
- Interplanetary Rapid Transit to Mars
- The Design of a Lunar Global Navigation Satellite System Tekilanand Persaud University of Florida, Gainesville, Florida, 32612
- Smart-1 Mission Overview from Launch, Lunar Orbit to Impact B.H
- A Modeling Framework for Interplanetary Supply Chains
- Effect of Altitude, Right Ascension of Ascending Node and Inclination on Lifetime of Circular Lunar Orbits
- (Preprint) AAS 19-616 SPACEFLIGHT HAZARDS of ESCAPE-VELOCITY
- ASTR 308 "Into the Final Frontier" Mercury and Gemini 1. the Mode
- The Interplanetary Superhighway and the Origins Program
- Lunar Orbit Insertion Targeting and Associated Outbound Mission Design for Lunar Sortie Missions
- Aas 08-235 Integration of Orbit Trajectories in The
- Escape Maneuvers with Lunar Gravity Assists
- The Altair Lunar Lander Begins the Altair Lander Also Can Be Used to Transport Large Its Descent Towards Cargo Elements to the Lunar Surface
- Optimal Low-Thrust, Earth-Moon Trajectories Craig Allan Kluever Iowa State University
- Lunar-Orbit Rendezvous 1961
- Enabled by Human Exploration Beyond Low-Earth Orbit an Isecg Science White Paper
- Medium-Earth Orbit Begins 300 Miles 0.95
- Low-Thrust Control of a Lunar Mapping Orbit
- Lunar Ascent and Rendezvous Trajectory Design
- Autonomous Lunar Orbit Determination Using Star Occultation Measurements
- Moon & Mars Orbiting Spinning Tether Transport (MMOSTT) (PDF
- Development and Optimization of Low Energy Orbits for Advancing Exploration of the Solar System
- Human Lunar Exploration Architectures
- A Class of Selenocentric Retrograde Orbits with Innovative Applications to Human Lunar Operations
- DE430 Lunar Orbit, Physical Librations, and Surface Coordinates
- Arxiv:1606.08376V4 [Astro-Ph.EP] 27 Jul 2018 .A Alv( Pavlov A
- PERMANENT – Chapter 3 – Transportation of Earth, Lunar and Asteroidal Materials 1 Overview – Transport of Earth, Lunar
- By James R. Hansen Monographs in Aerospace
- The New Lunar Ephemeris Inpop17a and Its Application to Fundamental Physics
- LUNAR ORBIT Determination by STAR OCCULTATIONS and MSFN TRACK I NG by David S
- ON MAKING USE of LUNAR and SOLAR GRAVITY ASSISTS in LUNAR-A, PLANET-B Missionst
- Orbital Mechanics
- Ways to the Moon?
- 4.1.5 Maneuvering in Space
- High Earth Orbit Design for Lunar-Assisted Medium Class Explorer Missions
- DSPSE Lunar Orbit Operations
- Joint Position Localisation of Spacecraft and Debris for Autonomous
- Application of Solar-Electric Propulsion to Robotic and Human Missions in Near-Earth Space
- Phasing Maneuver Analysis from a Low Lunar Orbit to a Near Rectilinear Halo Orbit
- 1 Lunar Reconnaissance Orbiter Orbit Determination
- Aas 11-509 Artemis Lunar Orbit Insertion and Science Orbit
- Dare Mission Design: Low Rfi Observations from a Low-Altitude Frozen Lunar Orbit
- Precision Orbit Determination of Low Altitude Lunar Spacecraft with Laser Systems
- Transfers to Low Lunar Orbits
- Von Braun and the Lunar-Orbit Rendezvous Decision: finding a Way to Go to the Moonଁ Michael J
- AIAA Space 2001 Conference