A Saturn V’s mass at liftoff was 2.80×10^6 kg , its fuel-burn rate was 1.40×10^4 kg/s , and the exhaust velocity was 2.40×10^3 m/s . Calculate its initial acceleration.
Strategy
This problem is a straightforward application of the expression for acceleration because a is the unknown and all of the terms on the right side of the equation are given.
Substituting the given values into the equation for acceleration yields
a = \frac{v_e}{m} \frac{Δm}{Δt} − g (8.79)
= \frac{2.40×10^3 m/s}{2.80×10^6 kg} (1.40×10^4 kg/s) − 9.80 m/s^2= 2.20 m/s^2 .
Discussion
This value is fairly small, even for an initial acceleration. The acceleration does increase steadily as the rocket burns fuel, because m decreases while v_e and \frac{Δm}{Δt} remain constant. Knowing this acceleration and the mass of the rocket, you can show that the thrust of the engines was 3.36×10^7 N .