Flight Instruments, Failures, & Emergencies

Question 1

What instruments operate on the Pitot-Static System?

Answer 1

1. Airspeed Indicator
2. Altimeter
3. Vertical Speed Indicator

Question 2

What instrument relies on the Pitot tube?

Answer 2

The Airspeed Indicator

Question 3

How does an Altimeter work?

Answer 3

1. An Altimeter senses the difference between the pressure set to 29.92 in HG in the aneroid wafer and the outside air pressure fed into the chamber surrounding the wafer.
2. The wafer is attached to a series of gears and linkages to the needle on the instruments display

Question 4

What errors are associated with the Altimeter?

Answer 4

1. Non-Standard temperature errors
2. Non-Standard pressure errors

Question 5

Explain the temperature errors associated with the Altimeter.

Answer 5

Warmer than standard temps
- Warm air is less dense
- Pressure levels are higher for a given altitude than they would be at standard temps
- True Altitude (MSL) is higher than Indicated

Colder than standard temps
- The air pressure is lowered
- Pressure levels are lower than they would be at standard temps
- True Altitude MSL is lower than Indicated.
- This is dangerous

Extreme Cold Temps
- It may be necessary to apply a cold temperature correction to the Altimeter to provide additional terrain/obstacle clearance

***REMEMBER: Hot to cold, look out below

Question 6

What is the correlation between air Temperature and air Pressure?

Answer 6

They are conversely related

• High Pressure = Temp must also increase
• Low Pressure = Temp must also decrease

Question 7

Explain the Pressure errors associated with the Altimeter.

Answer 7

If the Altimeter setting is not adjusted when flying between different areas of pressure, the reading will be incorrect

High to Low Pressure
- True Altitude (MSL) will be lower than Indicated
- Dangerous

Low to High Pressure
- True Altitude (MSL) will be higher than Indicated

Question 8

For IFR flight, what is the maximum allowable error for an Altimeter?

Answer 8

The Altimeter must read within +- 75ft of field elevation

Question 9

What is Indicated Altitude?

Answer 9

The Altitude as read from the Altimeter

Question 10

What is True Altitude?

Answer 10

The height above mean sea level (MSL)

Charted in MSL
- Airport elevation
- Airspace heights
- Terrain
- Obstacles

Question 11

What is Absolute Altitude?

Answer 11

Height above the ground (AGL)

Charted in AGL
- MDA/DA in (parentheses) on an IAPs minimums

Question 12

What is Pressure Altitude?

Answer 12

Our Altitude corrected for non-standard Pressure
- You can find it by setting the altimeter to 29.92 on the ground
- Used to compute things like Density Altitude and True Airspeed

Question 13

What is Density Altitude?

Answer 13

Pressure Altitude corrected for non-standard Temperature
- This is the altitude the aircraft will feel like its performing at

• A high Density Altitude means that your aircrafts performance will be negatively effected (engine, climb, stall recovery)

Question 14

Does adjusting your Altimeter setting have any effect on the altitude displayed to ATC?

Answer 14

No

Question 15

How does the Airspeed Indicator work?

Answer 15

The airspeed indicator measures the difference between RAM air pressure from the Pitot Tube and Static air pressure from the Static ports

• Static Pressure is sent to the aneroid wafer inside the Airspeed indicator
• Total Pressure enters the Pitot Tube and is sent to the chamber surrounding the aneroid wafer

Question 16

What are some limitations of the Airspeed Indicator?

Answer 16

1. Position Error - It must have smooth airflow entering the Pitot-Static System
2. Clogging - It is subject to being clogged with ice or other debris
3. Density Error - Changes in Altitude and Temperature are not compensated for
4. Compressibility Error - Caused by air packing into the Pitot Tube at high airspeeds. Results in higher than actual indications. Usually occurs above 180 kts.

Question 17

What are the 4 kinds of airspeed?

Answer 17

1. Indicated - As read from the Airspeed Indicator
2. Calibrated Airspeed - Indicated Airspeed corrected for instrument and position errors
3. Equivalent Airspeed - Calibrated Airspeed corrected for Compressibility Error during nonstandard conditions. As airspeed and Pressure Altitude increase CAS becomes higher than it should be and requires a correction.
4. True Airspeed - This is Calibrated Air speed corrected for both non-standard pressure and temperature.

Question 18

What is True Airspeed?

Answer 18

True airspeed is our actual speed as we move through the air in non-standard conditions. As we gain altitude the air becomes Less Dense and the Pitot-Tube needs more air to produce the same indicated airspeed. So True Airspeed would correct for this.

Question 19

How does the Vertical Speed Indicator work?

Answer 19

The VSI measures the rate at which pressure changes as you gain or lose altitude to determine a FPM rate of altitude change.

• Static pressure is sent to an aneroid wafer and also to a chamber surrounding the wafer.
• The aneroid wafer receives instant pressure readings while the chamber has a calibrated leak that SLOWLY equalizes pressure.
• So the VSI measures the change between current pressure and the pressure at the original altitude, when descending or ascending.

Question 20

What will happen to your airspeed indicator if the both the Pitot-Tube and the Pitot-Drain hole are clogged?

Answer 20

The airspeed indicator is only receiving Static Pressure from the Static port and will now act like an Altimeter.

Will show an increase in airspeed as you climb and a decrease in airspeed as you descend

*Dangerous because if you do not notice the malfunction and try and slow down the aircraft or speed up to much based on the false indications you could overspeed or stall the aircraft

Question 21

Traditionally, what instruments contained Gyroscopes?

Answer 21

1. Attitude Indicator
2. Turn Coordinator
3. Heading Indicator

Question 22

Traditionally, how are Gyroscopic instruments powered?

Answer 22

Most commonly they are powered by vacuum pump or electricity

Question 23

How does a Vacuum Powered Gyroscope work?

Answer 23

A stream of air is pumped past the vanes of a rotor to spin the gyro

Question 24

What are the two principles on which a Gyroscope funtions?

Answer 24

Rigidity in Space - A spinning plane resists tilting
(the attitude and heading instruments operate on this principle)

Gyroscopic Precession - Force applied to a point on a spilling wheel is not felt at that point, but in 90 degrees of the direction of its rotation.
(the turn coordinator operates on this principle)

Question 25

On the G1000, how do you know if you are in a Slip or a Skid?

Answer 25

Slip (nose is facing the outside of the turn) = Crust is displaced to the inside of the turn

Skid (nose is facing the inside of the turn) = Crust is displaced to the outside of the turn

Question 26

If your aircraft had a traditional Heading Indicator, what important procedure would you need to remember to do?

Answer 26

Due to Gyroscopic Drift, you would need to readjust it to match the Magnetic Compass roughly every 10 mins

Question 27

Does the G1000 have a Magnetic Compass?

Answer 27

No, the G1000 has a Magnetometer located in the right wing which provides direction information to the HSI.

Question 28

What are the limitations to a traditional Heading Indicator?

Answer 28

1. Gyroscopic Drift - It needs to be adjusted periodically to match the Magnetic Compass
2. Tumbling - Beyond 55 degrees of pitch and bank

Question 29

What are the limitations of a traditional Attitude Indicator?

Answer 29

1. Bank - 100 degrees
   Pitch - 70 degrees
   Beyond these limits the
   instrument may tumble
2. Acceleration/Deceleration will cause slight nose up, nose down deflection
3. 180 degree, prolonged turns may cause slight pitch/bank errors that correct in about 1 min

Question 30

What are the two types of emergency situations and how do you declare them?

Answer 30

1. Distress = Accident is imminent “MAYDAY” x3
   - Engine trouble
   - Icing trouble
2. Urgency = Accident not imminent “PAN-PAN” x3
   - Passenger emergency
   -

Question 31

Who do you declare an emergency with?

Answer 31

ATC on..
- Current ATC frequency
- Or Emergency frequency 121.5

Question 32

What are the different emergency transponder codes?

Answer 32

7700 - General emergency
7600 - Radio failure
7500 - Hijacking/security threat

Question 33

What should be included in your emergency declaration to ATC? (6 things)

Answer 33

1. “Mayday” or “Pan-Pan” as required
2. Aircraft ID
3. Nature of emergency
4. Intentions & requests
5. Number of souls on board
6. If you are VFR/IFR and your location + altitude

Question 34

What equipment malfunctions are you required to report to ATC under IFR?

Answer 34

FAR 91.187

1. Navigation failure (including GPS)
2. Approach equipment failure
3. Communication failures

**AHRS and ADC failures are considered navigation failures and should also be reported

Question 35

What does it mean to declare “minimum fuel” to ATC?

Answer 35

This lets ATC know that if you do not get on the ground soon you may have to declare an emergency, they should give you priority

**Declaring minimum fuel does NOT mean you are declaring an emergency, but that one may occur if you don’t get on the ground soon.

Question 36

What is the Slant Range Error of standard DME equipment?