Publisher's Synopsis
Unlock the Equations That Launch Spacecraft
From the first spark of ignition to the last Newton of thrust, this definitive aerospace engineering textbook demystifies every step of chemical, solid, hybrid, and cryogenic rocket propulsion. Forty-four rigorously structured chapters-each a self-contained masterclass-guide you through:
- Tsiolkovsky's Rocket Equation & ΔV budgeting for mission success
- Isentropic nozzle flow, expansion ratio sizing, shock & boundary layer effects for maximum efficiency
- Propellant thermochemistry, chemical equilibrium, adiabatic flame temperature & dissociation to squeeze every joule from your fuel
- Staging, gravity-turn trajectory math, gravity/drag losses & mass-fraction sensitivity that separate winning designs from the rest
- Combustion stability, acoustic modes, erosive burning & ablative cooling for rock-solid reliability
- Feed-system compressible flow, cavitation in cryogenics & pressurization gas dynamics to eliminate costly design oversights
- Undergraduate & graduate aerospace, mechanical, and chemical engineering students
- Space industry professionals refining propulsion subsystems
- STEM educators building cutting-edge curricula
- Self-taught rocketeers hungry for credible, math-backed knowledge
Take command of the calculations that power orbital launchers, deep-space probes, missile systems, and experimental cubesats-then push them further.
