A rocket, fired upward from rest at time t = 0, has an initialmass of m0 (including its
Chapter 8, Problem 61(choose chapter or problem)
A rocket, fired upward from rest at time \(t=0\), has an initial mass of \(m_{0}\) (including its fuel). Assuming that the fuel is consumed at a constant rate k, the mass m of the rocket, while fuel is being burned, will be given by \(m=m_{0}-k t\). It can be shown that if air resistance is neglected and the fuel gases are expelled at a constant speed c relative to the rocket, then the velocity v of the rocket will satisfy the equation
\(m \frac{d v}{d t}=c k-m g\)
where g is the acceleration due to gravity.
(a) Find v(t) keeping in mind that the mass m is a function of t
(b) Suppose that the fuel accounts for \(80 \%\) of the initial mass of the rocket and that all of the
fuel is consumed in 100 s. Find the velocity of the rocket in meters per second at the instant the fuel is exhausted. [Note: Take \(g=9.8 \mathrm{~m} / \mathrm{s}^{2}\) and \(c=2500 \mathrm{~m} / \mathrm{s}\).]
Equation Transcription:
Text Transcription:
t=0
m_0
m=m_0-kt
m dv/dt=ck-mg
80%
g=9.8 m/s^2
c=2500 m/s
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