Space Propulsion, • 29/10/2021 1. Simple Derivation of Exhaust Velocity Approximation for Inertial Confinement Fusion (ICF) Space Propulsion Previous Lecture: Interstellar Primer Next 2. Inclusion of the Nozzle Divergence Angle into the Exhaust Velocity for Inertial Confinement Fusion (ICF) Space Propulsion & Jet Efficiency You Might Also Like 12. Power requirement and cost of a starshot-like interstellar probe 4. Relationship of limits in 1/x functions useful for optimisation of parameters in spacecraft design 8. The use of indices in astrophysical equations 7. Basic introduction to the mathematical rules of indices 5. Basic propulsion equations for reaction engine type systems and link to jet efficiency
Space Propulsion, • 29/10/2021 1. Simple Derivation of Exhaust Velocity Approximation for Inertial Confinement Fusion (ICF) Space Propulsion Previous Lecture: Interstellar Primer Next 2. Inclusion of the Nozzle Divergence Angle into the Exhaust Velocity for Inertial Confinement Fusion (ICF) Space Propulsion & Jet Efficiency You Might Also Like 12. Power requirement and cost of a starshot-like interstellar probe 4. Relationship of limits in 1/x functions useful for optimisation of parameters in spacecraft design 8. The use of indices in astrophysical equations 7. Basic introduction to the mathematical rules of indices 5. Basic propulsion equations for reaction engine type systems and link to jet efficiency
