A theoretical treatment of technical risk in modern propulsion system design

A theoretical treatment of technical risk in modern propulsion system design

Bibliographic Details
Main Author: Roth, Bryce Alexander
Format: Others
Language:en_US
Published: Georgia Institute of Technology 2006
Subjects:
Space vehicles Thermodynamics
Space vehicles Propulsion systems
Aerothermodynamics
Online Access:http://hdl.handle.net/1853/12221
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spelling ndltd-GATECH-oai-smartech.gatech.edu-1853-122212013-12-15T03:32:55ZA theoretical treatment of technical risk in modern propulsion system designRoth, Bryce AlexanderSpace vehicles ThermodynamicsSpace vehicles Propulsion systemsAerothermodynamicsGeorgia Institute of Technology2006-10-20T15:06:58Z2006-10-20T15:06:58Z2000-05Dissertation237 bytestext/htmlhttp://hdl.handle.net/1853/12221504965en_USAccess restricted to authorized Georgia Tech users only.
collection NDLTD
language en_US
format Others
sources NDLTD
topic Space vehicles Thermodynamics
Space vehicles Propulsion systems
Aerothermodynamics
spellingShingle Space vehicles Thermodynamics
Space vehicles Propulsion systems
Aerothermodynamics
Roth, Bryce Alexander
A theoretical treatment of technical risk in modern propulsion system design
author Roth, Bryce Alexander
author_facet Roth, Bryce Alexander
author_sort Roth, Bryce Alexander
title A theoretical treatment of technical risk in modern propulsion system design
title_short A theoretical treatment of technical risk in modern propulsion system design
title_full A theoretical treatment of technical risk in modern propulsion system design
title_fullStr A theoretical treatment of technical risk in modern propulsion system design
title_full_unstemmed A theoretical treatment of technical risk in modern propulsion system design
title_sort theoretical treatment of technical risk in modern propulsion system design
publisher Georgia Institute of Technology
publishDate 2006
url http://hdl.handle.net/1853/12221
work_keys_str_mv AT rothbrycealexander atheoreticaltreatmentoftechnicalriskinmodernpropulsionsystemdesign
AT rothbrycealexander theoreticaltreatmentoftechnicalriskinmodernpropulsionsystemdesign
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