TM 1-1510-218-10
(4) Back Course Mode (BC).
The back
course mode is selected by pressing the
BC
button on
the mode selector. Back course operates the same as
the LOC mode with the deviation and course signals
reversed to make a back course approach on the
localizer. When
BC
is selected, and outside the lateral
beam sensor trip point,
BC ARM
and
HDG
annunciators will illuminate. At the capture point,
BC
CAP
will be annunciated with
BC
ARM
and
HDG
annunciators extinguished. When BC is selected, the
glideslope circuits are locked out.
(5) Standby Mode (SBY).
The standby mode
is selected by pressing the
SBY
button on the mode
selector. This resets all the other flight director modes
and biases the EADI command bars from view. While
pressed, SBY acts as a lamp test causing all mode
annunciators to illuminate and the FD warning flag on
the EADI to come in view. When the button is
released, the mode annunciator lights extinguish and
the flight director warning flag retracts from view.
(6) Indicated Airspeed Hold Mode (IAS)
. The
indicated airspeed hold mode is selected by pressing
the
IAS
button on the mode selector. When IAS is
selected, it overrides the APR CAP, GA, ALT, VS, and
ALTSEL CAP modes. In the IAS mode, the pitch
command is proportional to airspeed error provided by
the air data computer. Pressing and holding the
TCS
button allows the pilot to maneuver the aircraft to a
new airspeed hold reference without disengaging the
mode. Once engaged in the IAS mode, the mode will
be reset if the air data computer is not valid. The EADI
command cue will bias out of view if the vertical gyro is
not valid.
(7) Vertical Speed Hold Mode (VS).
The
vertical speed hold mode is selected by pressing the
VS
button on the mode selector. When VS is
selected, it overrides the APR CAP, GA, ALT, ALTSEL
CAP, and IAS modes. In the VS mode, the pitch
command is proportional to VS error provided by the
air data computer. Pressing and holding the
TCS
button allows the pilot to maneuver the aircraft to a
new vertical speed hold reference without disengaging
the mode. Once engaged in the VS mode, the mode
will be reset if the air data computer is not valid. The
ADI command cue will bias out of view if the vertical
gyro is not valid.
(8) Altitude Preselect Mode (ALTSEL).
The
altitude preselect mode is selected by pressing the
ALTSEL
button on the mode selector. The desired
altitude is selected on the altitude preselect controller.
Pitch hold, VS, or IAS may be selected as a mode to
fly to the selected altitude. When outside the altitude
bracket trip point, the
ALTSEL ARM
annunciator along
with the selected pitch mode is illuminated on the
mode selector. When reaching the bracket altitude,
the system automatically switches to the ALTSEL CAP
mode and the previously selected pitch mode is
cancelled. When the altitude is reached, the ALTSEL
CAP mode is automatically cancelled and the flight
director switches to the ALT hold mode. If the air data
computer is not valid, the altitude preselect mode
cannot be selected. The EADI command bars will bias
out of view if the vertical gyro is not valid.
NOTE
If the baro setting on the altimeter is
changed, a command is generated to fly
the aircraft back to the original altitude
reference.
(9) Altitude Hold Mode (ALT).
The altitude
hold mode is selected by pressing the
ALT
button on
the mode selector. When ALT mode is selected, it
overrides the APR CAP, GA, IAS, VS, and ALTSEL
CAP modes. In the ALT mode the pitch command is
proportional to the altitude error provided by the air
data computer. The altitude error signal is gain
programmed as a function of airspeed. Pressing and
holding the
TCS
button allows the pilot to maneuver
the aircraft to a new altitude hold reference without
disengaging the mode. Once engaged in the altitude
hold mode, the mode will be reset if the air data
computer is not valid and the EADI command bars will
bias out of view if the vertical gyro is not valid.
(10) Pitch Hold Mode.
Whenever a roll mode
is selected without a pitch mode, the EADI command
cue will display a pitch attitude hold command. The
pitch attitude can be changed by pressing the
TCS
button on the control wheel and maneuvering the
aircraft. The command cue will be synchronized to
zero while the button is pressed. Upon release of the
button, the pitch command will be such as to maintain
the new pitch attitude. In the pitch hold mode, the
EADI command bars will be biased out of view if the
vertical gyro is not valid.
(11) Go-around Mode.
The go-around mode
is selected by pressing one of the remote go-around
switches. One go-around switch is located on the left
power lever, Figure 2-9, and the other is located on the
copilot's control wheel. When selected, all other
modes are reset and the remote go-around (
GA
) and
yaw damp (
YD ENG
) annunciators will be illuminated.
The EADI command cue receives a wings level
command (zero command when roll is zero). The
command cue also receives the go-around command
that is a 7° visual pitch up attitude command.
Selecting GA disconnects the autopilot; however, the
yaw damper remains on.
3C-49
Summary of Contents for C-12C
Page 2: ......
Page 6: ... ...
Page 8: ... ...
Page 12: ... ...
Page 16: ... ...
Page 21: ...TM 1 1510 218 10 Figure 2 2 Typical General Interior Arrangement 2 5 ...
Page 22: ...TM 1 1510 218 10 Figure 2 3 Principal Dimensions C Sheet 1 of 2 2 6 ...
Page 23: ...TM 1 1510 218 10 2 7 Figure 2 3 Principal Dimensions D T Sheet 2 of 2 ...
Page 37: ...TM 1 1510 218 10 2 21 Figure 2 9 Control Pedestal D2 Sheet 1 of 3 ...
Page 38: ...TM 1 1510 218 10 Figure 2 9 Control Pedestal T1 Sheet 2 of 3 2 22 ...
Page 39: ...TM 1 1510 218 10 2 23 Figure 2 9 Control Pedestal T2 Sheet 3 of 3 ...
Page 43: ...TM 1 1510 218 10 Figure 2 12 Cabin Door and Cabin Emergency Hatch D T 2 27 ...
Page 51: ...TM 1 1510 218 10 Figure 2 15 Overhead Control Panel C D T1 Sheet 1 of 2 2 35 ...
Page 52: ...TM 1 1510 218 10 Figure 2 15 Overhead Control Panel T2 Sheet 2 of 2 2 36 ...
Page 54: ...TM 1 1510 218 10 Figure 2 16 Overhead Circuit Breaker Panel C Sheet 1 of 4 2 38 ...
Page 55: ...TM 1 1510 218 10 Figure 2 16 Overhead Circuit Breaker Panel D1 Sheet 2 of 4 2 39 ...
Page 56: ...TM 1 1510 218 10 2 40 Figure 2 16 Overhead Circuit Breaker Panel D2 Sheet 3 of 4 ...
Page 57: ...TM 1 1510 218 10 Figure 2 16 Overhead Circuit Breaker Panel T1 Sheet 4 of 4 2 41 ...
Page 59: ...TM 1 1510 218 10 2 43 Figure 2 17 Instrument Panel C D1 Sheet 1 of 4 ...
Page 60: ...TM 1 1510 218 10 2 44 Figure 2 17 Instrument Panel D2 Sheet 2 of 4 ...
Page 61: ...TM 1 1510 218 10 2 45 Figure 2 17 Instrument Panel T1 Sheet 3 of 4 ...
Page 62: ...TM 1 1510 218 10 Figure 2 17 Instrument Panel T2 Sheet 4 of 4 2 46 ...
Page 69: ...TM 1 1510 218 10 2 53 Figure 2 18 Fuel System ...
Page 75: ...TM 1 1510 218 10 2 59 Figure 2 20 Gravity Feed Fuel Flow ...
Page 76: ...TM 1 1510 218 10 2 60 Figure 2 21 Crossfeed Fuel Flow ...
Page 97: ...TM 1 1510 218 10 Figure 2 24 Oxygen System Servicing Pressure Chart 2 81 ...
Page 102: ...TM 1 1510 218 10 Figure 2 25 Oxygen System C Sheet 1 of 2 2 86 ...
Page 103: ...TM 1 1510 218 10 Figure 2 25 Oxygen System D T Sheet 2 of 2 2 87 ...
Page 106: ...TM 1 1510 218 10 2 90 Figure 2 26 Environmental System ...
Page 110: ...TM 1 1510 218 10 Figure 2 27 DC Electrical System Schematic C D1 2 94 ...
Page 114: ...TM 1 1510 218 10 Figure 2 28 DC Electrical System Schematic D2 T1 Sheet 1 of 2 2 98 ...
Page 115: ...TM 1 1510 218 10 Figure 2 28 DC Electrical System Schematic T2 Sheet 2 of 2 2 99 ...
Page 126: ...TM 1 1510 218 10 Figure 2 29 AC Electrical System Schematic Diagram D2 Sheet 2 of 3 2 110 ...
Page 127: ...TM 1 1510 218 10 Figure 2 29 AC Electrical System Schematic Diagram T Sheet 3 of 3 2 111 ...
Page 133: ...TM 1 1510 218 10 Figure 2 31 Pitot and Static System 2 117 ...
Page 153: ...TM 1 1510 218 10 Figure 2 34 Mooring 2 137 2 138 blank ...
Page 154: ... ...
Page 290: ......
Page 376: ...TM 1 1510 218 10 Figure 3C 7 ADI Pitch Scale 3C 22 ...
Page 387: ...TM 1 1510 218 10 Figure 3C 12 Map ARC Format Figure 3C 13 Map Symbols 3C 33 ...
Page 449: ...TM 1 1510 218 10 3C 95 Figure 3C 39 Lateral Course Edit ...
Page 465: ...TM 1 1510 218 10 Figure 3C 56 Entry and Display of VNAV Parameters 3C 111 ...
Page 473: ...TM 1 1510 218 10 Figure 3C 64 Alternate Flight Plan Schedule 3C 119 ...
Page 484: ...TM 1 1510 218 10 Figure 3C 75 Parallel Entry Into a Holding Pattern 3C 130 ...
Page 506: ...TM 1 1510 218 10 Figure 3C 99 MFP Geometry Definitions 3C 152 ...
Page 515: ...TM 1 1520 218 10 10 Figure 3C 108 FROM TO Options for the Data Page Examples Only 3C 161 ...
Page 517: ...TM 1 1520 218 10 3C 163 Figure 3C 110 Data For Option 1 Figure 3C 111 Data For Option 2 ...
Page 518: ...TM 1 1520 218 10 3C 164 Figure 3C 112 Data For Option 3 Figure 3C 113 Data For Option 4 ...
Page 574: ... ...
Page 576: ... ...
Page 578: ...TM 1 1510 218 10 Figure 5 1 Instrument Markings and Operating Limits C D Sheet 1 of 7 5 2 ...
Page 579: ...TM 1 1510 218 10 5 3 Figure 5 1 Instrument Markings and Operating Limits C D Sheet 2 of 7 ...
Page 582: ...TM 1 1510 218 10 Figure 5 1 Instrument Markings and Operating Limits Sheet 5 of 7 5 6 ...
Page 583: ...TM 1 1510 218 10 Figure 5 1 Instrument Markings and Operating Limits Sheet 6 of 7 5 7 ...
Page 599: ...TM 1 1520 218 10 Figure 6 2 Fuel Moment Chart 6 5 ...
Page 601: ...TM 1 1520 218 10 Figure 6 3 Baggage Moment 6 7 ...
Page 602: ...TM 1 1520 218 10 Figure 6 4 Personnel Moments 6 8 ...
Page 603: ...TM 1 1520 218 10 Figure 6 5 Cargo Moment C D1 T1 1 of 2 6 9 ...
Page 604: ...TM 1 1520 218 10 Figure 6 5 Cargo Moment T2 2 of 2 6 10 ...
Page 606: ...TM 1 1520 218 10 Figure 6 6 Cargo Loading C D T1 1 of 2 6 12 ...
Page 607: ...TM 1 1520 218 10 6 13 Figure 6 6 Cargo Loading T2 2 of 2 ...
Page 608: ...TM 1 1520 218 10 6 14 Figure 6 7 Center of Gravity Limitations ...
Page 609: ...TM 1 1520 218 10 6 15 Figure 6 8 Center of Gravity Limitations Above 12 500 ...
Page 610: ...TM 1 1520 218 10 6 16 Figure 6 9 Cargo Restraint and Tiedown Method ...
Page 612: ... ...
Page 621: ...TM 1 1510 218 10 Figure 7 5 Takeoff Performance Planning Tabulations Flaps 0 7 9 ...
Page 622: ...TM 1 1510 218 10 Figure 7 6 Takeoff Performance Planning Tabulations Flaps 0 7 10 ...
Page 623: ...TM 1 1510 218 10 Figure 7 7 Takeoff Performance Planning Tabulations Flaps 40 7 11 ...
Page 624: ...TM 1 1510 218 10 Figure 7 8 Takeoff Performance Planning Tabulations Flaps 40 7 12 ...
Page 625: ...TM 1 1510 218 10 Figure 7 9 Stall Speeds Power Idle 7 13 ...
Page 626: ...TM 1 1510 218 10 Figure 7 10 Temperature Conversion Correction for Compressibility 7 14 ...
Page 627: ...TM 1 1510 218 10 Figure 7 11 ISA Conversion 7 15 ...
Page 628: ...TM 1 1510 218 10 Figure 7 12 Altimeter Position Error Correction Normal System 7 16 ...
Page 629: ...TM 1 1510 218 10 Figure 7 13 Airspeed Calibration Normal System Ground Roll 7 17 ...
Page 634: ...TM 1 1510 218 10 Figure 7 18 Takeoff Distance Flaps 0 7 22 ...
Page 635: ...TM 1 1510 218 10 Figure 7 19 Accelerate Stop Distance Flaps 0 7 23 ...
Page 636: ...TM 1 1510 218 10 Figure 7 20 Accelerate Go Distance Flaps 0 7 24 ...
Page 637: ...TM 1 1510 218 10 Figure 7 21 Takeoff Distance Flaps 40 7 25 ...
Page 638: ...TM 1 1510 218 10 Figure 7 22 Accelerate Stop Distance Flaps 40 7 26 ...
Page 639: ...TM 1 1510 218 10 Figure 7 23 Accelerate Go Distance Flaps 40 7 27 ...
Page 640: ...TM 1 1510 218 10 Figure 7 24 Line Speed Check During Takeoff Ground Run 7 28 ...
Page 641: ...TM 1 1510 218 10 Figure 7 25 Climb Two Engines Flaps 0 7 29 ...
Page 642: ...TM 1 1510 218 10 Figure 7 26 Climb Two Engines Flaps 40 7 30 ...
Page 643: ...TM 1 1510 218 10 Figure 7 27 Climb One Engine Inoperative 7 31 ...
Page 644: ...TM 1 1510 218 10 Figure 7 28 Time Fuel Distance to Cruise Climb 7 32 ...
Page 645: ...TM 1 1510 218 10 Figure 7 29 Service Ceiling One Engine Inoperative 7 33 ...
Page 646: ...TM 1 1510 218 10 Figure 7 30 Landing Distance Without Propeller Reversing Flaps 100 7 34 ...
Page 647: ...TM 1 1510 218 10 Figure 7 31 Landing Distance Without Propeller Reversing Flaps 40 7 35 ...
Page 648: ...TM 1 1510 218 10 Figure 7 32 Landing Distance Without Propeller Reversing Flaps 0 7 36 ...
Page 649: ...TM 1 1510 218 10 Figure 7 33 Landing Distance With Propeller Reversing Flaps 100 7 37 ...
Page 650: ...TM 1 1510 218 10 Figure 7 34 Landing Distance With Propeller Reversing Flaps 40 7 38 ...
Page 651: ...TM 1 1510 218 10 Figure 7 35 Landing Distance With Propeller Reversing Flaps 0 7 39 ...
Page 652: ...TM 1 1510 218 10 Figure 7 36 Stopping Distance Factors 7 40 ...
Page 653: ...TM 1 1510 218 10 Figure 7 37 Cabin Altitude for Various Airplane Altitudes 7 41 ...
Page 662: ...TM 1 1510 218 10 Figure 7 46 Recommended Cruise Speeds 1700 RPM 7 50 ...
Page 663: ...TM 1 1510 218 10 Figure 7 47 Recommended Cruise Power 1700 RPM 7 51 ...
Page 664: ...TM 1 1510 218 10 Figure 7 48 Fuel Flow at Recommended Cruise Power 1700 RPM 7 52 ...
Page 673: ...TM 1 1510 218 10 Figure 7 57 Recommended Cruise Speeds 1800 RPM 7 61 ...
Page 674: ...TM 1 1510 218 10 Figure 7 58 Recommended Cruise Power 1800 RPM 7 62 ...
Page 675: ...TM 1 1510 218 10 Figure 7 59 Fuel Flow at Recommended Cruise Power 1800 RPM 7 63 ...
Page 684: ...TM 1 1510 218 10 Figure 7 68 Maximum Cruise Speeds 1900 RPM 7 72 ...
Page 685: ...TM 1 1510 218 10 Figure 7 69 Maximum Cruise Power 1900 PRM 7 73 ...
Page 686: ...TM 1 1510 218 10 Figure 7 70 Fuel Flow at Maximum Cruise Power 1900 RPM 7 74 ...
Page 687: ...TM 1 1510 218 10 Figure 7 71 Maximum Range Power 1700 RPM ISA 30 C 7 75 ...
Page 688: ...TM 1 1510 218 10 Figure 7 72 Maximum Range Power 1700 RPM ISA 20 C 7 76 ...
Page 689: ...TM 1 1510 218 10 Figure 7 73 Maximum Range Power 1700 RPM ISA 10 C 7 77 ...
Page 690: ...TM 1 1510 218 10 Figure 7 74 Maximum Range Power 1700 RPM ISA 7 78 ...
Page 691: ...TM 1 1510 218 10 Figure 7 75 Maximum Range Power 1700 RPM ISA 10 C 7 79 ...
Page 692: ...TM 1 1510 218 10 Figure 7 76 Maximum Range Power 1700 RPM ISA 20 C 7 80 ...
Page 693: ...TM 1 1510 218 10 Figure 7 77 Maximum Range Power 1700 RPM ISA 30 C 7 81 ...
Page 694: ...TM 1 1510 218 10 Figure 7 78 Maximum Range Power 1700 RPM ISA 37 C 7 82 ...
Page 711: ...TM 1 1510 218 10 7A 9 Figure 7A 5 Airspeed Calibration Normal System Takeoff Ground Roll ...
Page 712: ...TM 1 1510 218 10 7A 10 Figure 7A 6 Airspeed Calibration Normal System ...
Page 713: ...TM 1 1510 218 10 7A 11 Figure 7A 7 Altimeter Correction Normal System ...
Page 714: ...TM 1 1510 218 10 7A 12 Figure 7A 8 Airspeed Calibration Alternate System ...
Page 715: ...TM 1 1510 218 10 7A 13 Figure 7A 9 Altimeter Correction Alternate System ...
Page 716: ...TM 1 1510 218 10 7A 14 Figure 7A 10 Indicated Outside Air Temperature Correction ISA ...
Page 717: ...TM 1 1510 218 10 7A 15 Figure 7A 11 ISA Conversion ...
Page 718: ...TM 1 1510 218 10 7A 16 Figure 7A 12 Fahrenheit to Celsius Temperature Conversion ...
Page 719: ...TM 1 1510 218 10 7A 17 Figure 7A 13 Stall Speeds Power Idle ...
Page 720: ...TM 1 1510 218 10 7A 18 Figure 7A 14 Cabin Altitude for Various Airplane Altitudes ...
Page 724: ...TM 1 1510 218 10 7A 22 Figure 7A 18 Minimum Takeoff Power With Ice Vanes Extended 65 Knots ...
Page 725: ...TM 1 1510 218 10 7A 23 Figure 7A 19 Takeoff Flight Path ...
Page 726: ...TM 1 1510 218 10 7A 24 Figure 7A 20 Wind Component ...
Page 727: ...TM 1 1510 218 10 7A 25 Figure 7A 21 Take Off Distance Flaps UP ...
Page 728: ...TM 1 1510 218 10 7A 26 Figure 7A 22 Accelerate Stop Flaps UP ...
Page 729: ...TM 1 1510 218 10 7A 27 Figure 7A 23 Accelerate Go Flaps UP ...
Page 730: ...TM 1 1510 218 10 7A 28 Figure 7A 24 Net Gradient of Climb Flaps UP ...
Page 731: ...TM 1 1510 218 10 7A 29 Figure 7A 25 Take off Distance Flaps APPROACH ...
Page 732: ...TM 1 1510 218 10 7A 30 Figure 7A 26 Accelerate Stop Flaps APPROACH ...
Page 733: ...TM 1 1510 218 10 7A 31 Figure 7A 27 Accelerate Go Flaps APPROACH ...
Page 734: ...TM 1 1510 218 10 7A 32 Figure 7A 28 Net Gradient of Climb Flaps APPROACH ...
Page 735: ...TM 1 1510 218 10 7A 33 Figure 7A 29 Climb Two Engines Flaps UP ...
Page 736: ...TM 1 1510 218 10 7A 34 Figure 7A 30 Climb Two Engines Flaps APPROACH ...
Page 737: ...TM 1 1510 218 10 7A 35 Figure 7A 31 Climb One Engine Inoperative ...
Page 738: ...TM 1 1510 218 10 7A 36 Figure 7A 32 Service Ceiling One Engine Inoperative ...
Page 739: ...TM 1 1510 218 10 7A 37 Figure 7A 33 Time Fuel and Distance to Climb ...
Page 748: ...TM 1 1510 218 10 7A 46 Figure 7A 42 Normal Cruise Speeds 1700 RPM ...
Page 749: ...TM 1 1510 218 10 7A 47 Figure 7A 43 Normal Cruise Power 1700 RPM ...
Page 750: ...TM 1 1510 218 10 7A 48 Figure 7A 44 Fuel Flow At Normal Cruise Power 1700 RPM ...
Page 751: ...TM 1 1510 218 10 7A 49 Figure 7A 45 Range Profile Normal Cruise Power 1700 RPM ...
Page 760: ...TM 1 1510 218 10 Figure 7A 54 Maximum Cruise Speeds 1700 RPM 7A 58 ...
Page 761: ...TM 1 1510 218 10 Figure 7A 55 Maximum Cruise Power 1700 RPM 7A 59 ...
Page 762: ...TM 1 1510 218 10 Figure 7A 56 Fuel Flow At Maximum Cruise Power 1700 RPM 7A 60 ...
Page 763: ...TM 1 1510 218 10 Figure 7A 57 Range Profile Maximum Cruise Power 1700 RPM 7A 61 ...
Page 772: ...TM 1 1510 218 10 Figure 7A 66 Normal Cruise Speeds 1800 RPM 7A 70 ...
Page 773: ...TM 1 1510 218 10 Figure 7A 67 Normal Cruise Power 1800 RPM 7A 71 ...
Page 774: ...TM 1 1510 218 10 Figure 7A 68 Fuel Flow at Normal Cruise Power 1800 RPM 7A 72 ...
Page 775: ...TM 1 1510 218 10 Figure 7A 69 Range Profile Normal Cruise Power 1800 RPM 7A 73 ...
Page 784: ...TM 1 1510 218 10 Figure 7A 78 Maximum Cruise Speeds 1800 RPM 7A 82 ...
Page 785: ...TM 1 1510 218 10 Figure 7A 79 Maximum Cruise Power 1800 RPM 7A 83 ...
Page 786: ...TM 1 1510 218 10 7A 84 Figure 7A 80 Fuel Flow At Maximum Cruise Power 1800 RPM ...
Page 787: ...TM 1 1510 218 10 Figure 7A 81 Range Profile Maximum Cruise Power 1800 RPM 7A 85 ...
Page 804: ...TM 1 1510 218 10 Figure 7A 90 Range Profile Maximum Range Power 1700 RPM 7A 102 ...
Page 805: ...TM 1 1510 218 10 Figure 7A 91 Range Profile Full Main and Auxiliary Tanks 7A 103 ...
Page 806: ...TM 1 1510 218 10 Figure 7A 92 Endurance Profile Full Main and Auxiliary Tanks 7A 104 ...
Page 807: ...TM 1 1510 218 10 Figure 7A 93 Range Profile Full Main Tanks 7A 105 ...
Page 808: ...TM 1 1510 218 10 Figure 7A 94 Endurance Profile Full Main Tanks 7A 106 ...
Page 817: ...TM 1 1510 218 10 Figure 7A 103 Pressurization Controller Setting for Landing 7A 115 ...
Page 818: ...TM 1 1510 218 10 Figure 7A 104 Holding Time 7A 116 ...
Page 819: ...TM 1 1510 218 10 Figure 7A 105 Time Fuel and Distance to Descend 7A 117 ...
Page 820: ...TM 1 1510 218 10 Figure 7A 106 Climb Balked Landing 7A 118 ...
Page 822: ...TM 1 1510 218 10 7A 120 Figure 7A 108 Landing Distance Without Propeller Reversing Flaps UP ...
Page 823: ...TM 1 1510 218 10 7A 121 Figure 7A 109 Landing Distance With Propeller Reversing Flaps DOWN ...
Page 824: ...TM 1 1510 218 10 7A 122 Figure 7A 110 Landing Distance With Propeller Reversing Flaps UP ...
Page 825: ...TM 1 1510 218 10 7A 123 7A 124 blank Figure 7A 111 Stopping Distance Factors ...
Page 826: ... ...
Page 853: ...TM 1 1510 218 10 8 27 Figure 8 2 Stall Speed ...
Page 883: ...TM 1 1510 218 10 8A 23 Figure 8A 3 Figure Stall Speeds Power Idle ...
Page 892: ...TM 1 1510 218 10 9 2 Figure 9 1 Emergency Exits and Equipment ...
Page 896: ...TM 1 1510 218 10 9 6 Figure 9 2 Maximum Glide Distance ...
Page 910: ... ...
Page 912: ... ...
Page 922: ......
Page 940: ... ...
Page 942: ......
Page 948: ... PIN 0 000 ...