by Douglas Messier
Managing Editor
Of the six launches known to be scheduled to close out August, there’s only one – Artemis I — that truly matters in any real sense. The others will be duly recorded but little remembered in what could be the busiest launch year in human history.
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The Wikipedia orbital launch page lists six launches to close out August. The big one, of course, is NASA’s Artemis I mission next Monday. The others, not so momentous but still worth listing.
Disclaimer: This schedule is subject to change without notice. Parabolic Arc takes no responsibility for delays, changes, additions or what have you. And, as always, no wagering.
Tuesday, August 23
Launch Vehicle: Long March 11
Launch Site: Xichang Satellite Launch Center
Launch Company: China Aerospace Science and Technology Corporation (CASC)
Payload: TBA
Wednesday, August 24
Launch Vehicle: Long March 2D
Launch Site: Taiyuan Xichang Satellite Launch Center
Launch Company: CASC
Payload: TBA
Saturday, August 27
Launch Vehicle: Falcon 9
Launch Site: Vandenberg Space Force Base
Launch Company: SpaceX
Payloads: 46 Starlink broadband satellites
Webcast: www.spacex.com
Sunday, August 28
Launch Vehicle: Falcon 9
Launch Site: Cape Canaveral Space Force Station
Launch Company: SpaceX
Payloads: 53 Starlink broadband satellites
Webcast: www.spacex.com
Monday, August 29
Launch Vehicle: Space Launch System Block 1
Launch Site: Kennedy LC-39B
Launch Window: 8:33-10:33 a.m. EDT (12:33-14:33 UTC)
Launching Agency: NASA
Payloads: Orion spacecraft and 10 secondary payloads
Webcast: www.nasa.gov
Artemis I Secondary Payloads
| Satellite | Organization | Orbit | Purpose |
|---|---|---|---|
| ArgoMoon | Italian Space Agency | Heliocentric | Spacecraft will demonstrate capacity of CubeSats to conduct precise maneuvers in deep space by providing detailed images of the SLS’s Interim Cryogenic Propulsion Stage |
| BioSentinel | NASA | Heliocentric | Spacecraft will use budding yeast to detect, measure, and compare the impact of deep space radiation on DNA repair |
| CuSP | NASA | Heliocentric | Space weather measurements |
| EQUULEUS | University of Tokyo | Earth-moon L2 | 6U CubeSat will measure the distribution of plasma around Earth |
| LunaH-Map | NASA | Selenocentric | Lunar polar orbiter will search for evidence of frozen water deposits |
| Lunar IceCube | NASA | Selenocentric | Lunar orbiter will search for frozen water deposits |
| LunIR | Lockheed Martin Space | Heliocentric | Demonstration technology to collect surface spectroscopy and thermography |
| Near-Earth Asteroid Scout | NASA | Heliocentric | Technology demonstration of solar sail to rendezvous with asteroid |
| OMOTENASHI | Japan Aerospace Exploration Agency (JAXA) | Selenocentric | Smallest vehicle to attempt lunar lander |
| Team Miles | Fluid and Reason, LLC | Heliocentric | Technology demonstration of plasma thrusters |
Late August
Launch Vehicle: Kuaizhou 1A
Launch Site: Jiuquan Satellite Launch Center
Launch Company: ExPace
Payloads: Centispace-1 S3 and Centispace-1 S4 navigation satellites
WASHINGTON, DC (NASA PR) — NASA is focused on an ambitious plan to advance the nation’s space program by increasing science activities near and on the Moon and ultimately returning humans to the surface.
As part of the President’s fiscal year 2019 budget proposal, NASA is planning a new Moon-focused exploration campaign that starts with a series of progressive commercial robotic missions.
Statement of Jason Crusan
Director, Advanced Exploration Systems Division
Human Exploration and Operations Mission Directorate
National Aeronautics and Space Administration
before the
Subcommittee on Space
Committee on Science, Space, and Technology
U. S. House of Representatives
SELECTED EXCERPTS
Lunar CATALYST: Promoting Private Sector Robotic Exploration of the Moon
As part of the Agency’s overall strategy to conduct deep space exploration, NASA is also supporting the development of commercial lunar exploration. In 2014, NASA introduced an initiative called Lunar Cargo Transportation and Landing by Soft Touchdown (CATALYST). The purpose of the initiative is to encourage the development of U.S. private-sector robotic lunar landers capable of successfully delivering payloads to the lunar surface using U.S. commercial launch capabilities.
