Difference between revisions of "Cheat sheet"
(→Maps: how can i get these maps to load on the Cheat Sheet page itself?) |
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− | Calculation of a rocket's Δv, taking an atmosphere into account. Δv<sub>out</sub> is the amount of Δv required to leave a body's atmosphere. | + | Calculation of a rocket's Δv, taking an atmosphere into account. Δv<sub>out</sub> is the amount of Δv required to leave a body's atmosphere, '''not''' reach orbit. This equation is useful to figure out the actual Δv of a stage that transitions from atmosphere to vacuum. |
<math>\Delta{v}_T = \frac{\Delta{v}_{atm} - \Delta{v}_{out} \frac{m}{s^2}}{\Delta{v}_{atm}} \cdot \Delta{v}_{vac} + \Delta{v}_{out} \frac{m}{s^2}</math> | <math>\Delta{v}_T = \frac{\Delta{v}_{atm} - \Delta{v}_{out} \frac{m}{s^2}}{\Delta{v}_{atm}} \cdot \Delta{v}_{vac} + \Delta{v}_{out} \frac{m}{s^2}</math> | ||
{{clear|left}} | {{clear|left}} | ||
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==== Maps ==== | ==== Maps ==== | ||
Various fan-made maps showing the Δv required to travel to a certain body. | Various fan-made maps showing the Δv required to travel to a certain body. |
Revision as of 23:14, 2 July 2013
Kerbal Space Program rocket scientist's cheat sheet: Delta-v maps, equations and more for your reference so you can get from here to there and back again.
Contents
Mathematics
Delta-v (Δv)
Basic calculation
- → See also: Tutorial:Advanced Rocket Design
Basic calculation of a rocket's Δv. Use the atmospheric and vacuum thrust values for atmospheric and vacuum Δv, respectively.
Transitional (true) Δv
Body | Δvout |
---|---|
Kerbin | 1000 m/s2 |
other bodies' | data missing |
Calculation of a rocket's Δv, taking an atmosphere into account. Δvout is the amount of Δv required to leave a body's atmosphere, not reach orbit. This equation is useful to figure out the actual Δv of a stage that transitions from atmosphere to vacuum.
Maps
Various fan-made maps showing the Δv required to travel to a certain body.
Total Δv values
Δv change values
Δv nomogram
Thrust to weight ratio (TWR)
- → See also: Terminology
This is Newton's Second Law. If the ratio is less than 1 the craft will not lift off the ground.
Combined specific impulse (Isp)
If the Isp is the same for all engines in a stage, then the Isp is equal to a single engine. If the Isp is different for engines in a single stage, then use the following equation:
See also
Links to collections of reference material.