Comparison of orbital launch systems
This comparison of orbital launch systems lists the attributes of all current and future individual rocket configurations designed to reach orbit. A first list contains rockets that are operational or have attempted an orbital flight attempt as of 2026; a second list includes all upcoming rockets. For the simple list of all conventional launcher families, see: Comparison of orbital launchers families. For the list of predominantly solid-fueled orbital launch systems, see: Comparison of solid-fueled orbital launch systems.
Background
is any method used to accelerate spacecraft and artificial satellites. Orbital launch systems are rockets and other systems capable of placing payloads into or beyond Earth orbit. All launch vehicle propulsion systems employed to date have been chemical rockets falling into one of three main categories:- Solid-propellant rockets or solid-fuel rockets have a motor that uses solid propellants, typically a mix of powdered fuel and oxidizer held together by a polymer binder and molded into the shape of a hollow cylinder. The cylinder is ignited from the inside and burns radially outward, with the resulting expanding gases and aerosols escaping out via the nozzle.
- Liquid-propellant rockets have a motor that feeds liquid propellant into a combustion chamber. Most liquid engines use a bipropellant, consisting of two liquid propellants which are stored and handled separately before being mixed and burned inside the combustion chamber.
- Hybrid-propellant rockets use a combination of solid and liquid propellant, typically involving a liquid oxidizer being pumped through a hollow cylinder of solid fuel.
Current rockets
Orbits legend:- LEO, low Earth orbit
- SSO or SSPO, near-polar Sun-synchronous orbit
- polar, polar orbit
- MEO, medium Earth orbit
- GTO, geostationary transfer orbit
- GEO, geostationary orbit
- HEO, high Earth orbit
- HCO, heliocentric orbit
- TLI, trans-lunar injection
- TMI, trans-Mars injection
Rockets in flight testing