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fgdata/Aircraft/c172p/Models/Interior/Panel/Instruments/tc/tc.xml
2018-09-16 18:13:13 +01:00

108 lines
3.5 KiB
XML

<?xml version="1.0"?>
<PropertyList>
<path>tc.ac</path>
<effect>
<inherits-from>../../../../Effects/interior/lm-tcr</inherits-from>
<object-name>Airplane</object-name>
<object-name>Ball</object-name>
</effect>
<effect>
<inherits-from>../../../../Effects/interior/lm-tc</inherits-from>
<object-name>Face</object-name>
<object-name>Background</object-name>
<object-name>Flag</object-name>
<object-name>Case</object-name>
</effect>
<animation>
<type>material</type>
<object-name>Ball</object-name>
<object-name>Face</object-name>
<object-name>Airplane</object-name>
<object-name>Background</object-name>
<object-name>Case</object-name>
<condition>
<not>
<property>/sim/rendering/shaders/skydome</property>
</not>
</condition>
<emission>
<red-prop>/sim/model/material/instruments/default-red-combined-factor</red-prop>
<green-prop>/sim/model/material/instruments/default-green-combined-factor</green-prop>
<blue-prop>/sim/model/material/instruments/default-blue-combined-factor</blue-prop>
</emission>
</animation>
<animation>
<type>rotate</type>
<object-name>Airplane</object-name>
<property>/instrumentation/turn-indicator/indicated-turn-rate</property>
<factor>20.0</factor>
<axis>
<x>-1</x>
<y>0</y>
<z>0</z>
</axis>
<center>
<x-m>-0.37583</x-m>
<y-m>-0.31098</y-m>
<z-m>-0.00261</z-m>
</center>
</animation>
<animation>
<type>rotate</type>
<object-name>Ball</object-name>
<property>/instrumentation/slip-skid-ball/indicated-slip-skid</property>
<factor>5.729</factor>
<!--
From the source for slip_skid_ball.cxx, the number returned is (-z_accel/y_accel)*10.
For small theta, theta~=tan(theta) when theta is in radians. So the angle of a "ball"
undergoing z_accel and y_accel hung on the end of a string makes with the verticle
will be approximately -z_accel/y_accel radians. Converting to degrees, multiply by
180/pi=57.29, or 5.729 times the returned value. Edited by Dave Perry, 2/26/06.
Edit by Daniel Dubreuil june 2014: I'd rather say
Angle with the verticle (radians) -y_accel/z_accel
FG indicated-slip-skid = -(y_accel/z_accel)*10
-->
<min-deg>-9.3</min-deg>
<max-deg>9.3</max-deg>
<!--center>
<x-m>0</x-m>
<y-m>0</y-m>
<z-m>0.10</z-m-->
<!-- 0.10 is fitted to the drawing. Initial 0.25 makes the
radius of curvature for the glass tube ~10 inches and
the angle +-4 deg (more sensitive)
-->
<!--/center-->
<axis>
<x>-1</x>
<y>0</y>
<z>0</z>
</axis>
<center>
<x-m>-0.37878</x-m>
<y-m>-0.31098</y-m>
<z-m> 0.08383</z-m>
</center>
</animation>
<animation>
<type>translate</type>
<object-name>Flag</object-name>
<property>/instrumentation/turn-indicator/spin</property>
<factor>0.0040</factor>
<axis>
<x>0</x>
<y>0</y>
<z>1</z>
</axis>
</animation>
</PropertyList>