Reference Figures and Equations for AE5111 Spacecraft Propulsion

AE5111 Ref Figures

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Reference Figures and Equations

for

AE5111 Spacecraft Propulsion
2

NEXIS is shown in Fig. 1-2. This thruster is capable of operating at over 20 kW of power with an Isp exceeding 7000 s and a design lifetime of over 100,000 hours

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
3

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
4

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
5

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
6

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
7

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
8

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
9

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
10

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
11

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
12

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
13

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)
14

Unless noted otherwise, all figures and equations are reproduced from course text: Goebel, D. and Katz, I., Fundamentals of Electric Propulsion, JPL Space and Technology Series, Wiley Publishing, 2008. (ISBN 978-0-470-42927-3)