5 edition of Micropropulsion for small spacecraft found in the catalog.
2000 by American Institute of Aeronautics and Astronautics in Reston, Va .
Written in English
Includes bibliographical references and author index.
|Statement||edited by Michael M. Micci, Andrew D. Ketsdever.|
|Series||Progress in astronautics and aeronautics ;, v. 187|
|Contributions||Ketsdever, Andrew D.|
|LC Classifications||TL507 .P75 vol. 187|
|The Physical Object|
|Pagination||xviii, 477 p. :|
|Number of Pages||477|
|LC Control Number||2001267651|
Crown Reference Bible/Burgundy/4614-80
Investigation of employee opinions of their work environment in open plan and conventional offices.
Papers presented at the eighth session of the Indo-Pacific Fishery Commission Working Party on Fish Technology and Marketing
Financial and cost accounting for management
Editorial Research Reports, 1990 (Cq Researcher)
E.M. Forster number.
International journal for vitamin and nutrition research. Supplement
Hand-book almanac for the Pacific States
Trees and shrubs in eastern North America
Accident and health insurance from the victims point of view
Micropropulsion for small spacecraft. Reston, Va.: American Institute of Aeronautics and Astronautics, © (OCoLC) Document Type: Book: All Authors /. Space micropropulsion systems for Cubesats and small satellites: From proximate targets to furthermost frontiers Article (PDF Available) in Applied Physics Reviews 5(1) March with.
Micropropulsion for small spacecraft: a new challenge for field effect electric propulsion and microstructured liquid metal ion sources Dr J. Mitterauer Corresponding Author. Download Citation | Micropropulsion for small spacecraft: A new challenge for field effect electric propulsion and microstructured liquid metal ion sources | The growing interest in the use of.
A new type of micropropulsion system for miniature satellites called CubeSats uses an innovative design of tiny nozzles that release precise bursts of water vapor to maneuver the spacecraft. Quad-Thruster FEMTA Micropropulsion System for CubeSat 1-Axis Control micropropulsion would mobilize a satellite to allow for are one of the most mature options for small spacecraft.
Multi-mode spacecraft micropropulsion systems which include a high-thrust chemical mode and high-specific impulse electric mode are assessed with specific reference to cubesat-sized satellite by: 6.
compiled micropropulsion state of the art inand many of those micropropulsion systemshave been or are being investigated for small spacecraft(e.g.,microresistojets,microcavitydischargethrusters,mini. Micropropulsion is an enabling technology for microspacecraft operations by making missions possible that otherwise could not be performed.
For example, the formation and maintenance of platoons of microspacecraft will require a maneuvering capability to counter orbital perturbations.