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Thrust

Total Mass

Gravita Superficiale

m/s2

Thrust-to-Weight Ratio

1.4128

Net Vertical Acceleration4.0481 m/s2

Thrust-to-Weight Ratio vs Thrust

Vedi formula →

Formula

## Thrust-to-Weight Ratio The TWR determines whether a vehicle can lift off and how quickly it accelerates. ### Formula **TWR = F / (m * g)** - *F* = engine thrust in newtons - *m* = total vehicle mass - *g* = local gravitational acceleration TWR must exceed 1.0 for liftoff. Most launch vehicles aim for 1.2 to 1.8 at ignition.

Esempio Risolto

Saturn V first stage: 7 607 000 N thrust, 549 054 kg.

01TWR = F / (m * g)
02Weight = 549054 * 9.80665 = 5 384 000 N
03TWR = 7607000 / 5384000
04TWR = 1.413

Domande Frequenti

Can a TWR below 1 be useful?

Yes, for in-space manoeuvres. Ion engines have tiny TWR (0.001 or less) but accumulate large delta-v over time.

Why not maximise TWR?

Very high TWR means excessive acceleration, which wastes fuel fighting drag in the lower atmosphere and stresses the structure.

Does TWR change during flight?

Yes. As fuel burns the mass decreases while thrust stays roughly constant, so TWR increases throughout the burn.

Calcolatrici Correlate

Rocket Delta-V Calculator

Total velocity change.

Specific Impulse Calculator

Engine efficiency.

Mission Fuel Mass Calculator

Required fuel for a mission.