曝光台 注意防骗
网曝天猫店富美金盛家居专营店坑蒙拐骗欺诈消费者
(3,215)
d~ = - 01, &~ )..
In incremental form, we can write the above equation as
(3.216)
A8e = _ACC., G~: ),.
The corresponding increment in hinge-moment coefficient is given by
ACh = Ch8.e A8e (3.217)
Ch8.,
=- AC G~),. . (3.218)
The incremental stick force, i.e., the additional stick force above that required in
254 PERFORMANCE, STABILITY, DYNAMICS, AND CONTROL
level fiight, is given by .
AFs - -Gi AHM
(3.219)
= -G i qr Scce ACh (3.220)
(3.221)
- Glqrlt Sece ACL CC., ~~ ), ..
where Gi is the gearing ratio between the stick and the elevator. Using ACL =
AnCL, we obtain the stick-force per g as follows:
d/. = G, ( g) ,I,Se: CC., G~i ),. c3.222)
Usually, Ch8, < 0 and Cm8 < O. For a stable airplane, (dCmldCL)m, < 0. Then,
dFs/dn < 0, i.e., to pull a load factor above unity, for a stable airplane, the pilot
has to apply additional negative stick force (pull) as given by Eq. (3.222)-
3-4-2 Trjrrning Flightin HorizontaIPlane
Consider a level coordinated tuming mancuver in a horizontal plane as shown
in Fig. 3.64. Let O be the center of the turn and 02 be the angular velocity about
a vertical axis passing through O. The angular velocity vector S2 can be resolved
along the body y and z axes as
cZy = c2 siri~ (3.223)
g2z = -s-2 cos 4 (3.224)
中国航空网 www.aero.cn
航空翻译 www.aviation.cn
本文链接地址:
PERFORMANCE, STABILITY, DYNAMICS, AND CONTROL2(33)
