曝光臺 注意防騙
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assumed initial conditions in Eqs. (4.370-4,373) will be different, and we have to
derive different sets of equations of motion. This concept will be illustrated with
the help of an example later in this section.
Example 4.7
A high-performance aircraft executes a velocity vector roll at a rate of 90 deg/s
while flying at 100 m/s and an angle of attack of30 deg. Determine the acceleration
of the aircraft with respect to an Ezulth-fixed inertial system.
So/ution. We assume that the x axis of the Earth-fixed system points in the
direction of the velocity vector, y axis to the right and z axis vertically downward,
EQUATIONS OF MOTION AND ESTIMATION OF STABILITY DERIVATIVES 385
to form a right-hand system. Then
p = s2 cos cr q -.0 r - S2 smu
U = Uocos af V -.O W - Uosina
U-0' V -.0 W -.0
The body axes components of the acceleration with respect to the Earth-fixed
system are
ax =U +qW -r V
ay -V +rU - pW
az=W+pV -qU
Substituting, we get
ax - O
ay = S2 sin aUo cos a - 92 cos aUo sina - 0
az -O
Thus, the aircraft does not experience any acceleration with respect to an Earth-
fixed axes sytem.
Example 4.8
hSo/ution. At t - 0, the two coordinate systems coincide. Let (2 -. koS21 :
kol = kil. Furthermore,
~o= [~]
We have
t31,1 = [.:,]
cos g2it sin {2it
Vi=T.lVo= -sinQit cosS?it ilFo;l
0 O
where S2i - 1 rad/s and t - 5 s. Substituting ar nplifying, we get
~
Vi= -40.852,
O
;~
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' . ' :.
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