Mod 1 - NAV

Question 1

What are the components of Air Navigation?

Answer 1

Position
Course
Distance
Time
Altitude

Question 2

List Air Navigation Methods

Answer 2

Visual
Dead reckoning
Radio
Area.

Question 3

What are the requirements for Visual Navigation?

Answer 3

Visibility
Reference to the ground.
Used in combination to other methods.

Question 4

What are the requirements for Dead Reckoning Navigation?

Answer 4

Deduced position

Vectors - Air, Wind and Ground.

Question 5

What are the requirements for Radio Navigation and what does it deliver?

Answer 5

No external vis required

Course, Distance, Position.

Question 6

What is Area Navigation and list systems?

Answer 6

Permits nav free of radio beacons
Autonomous systems - INS, IRS
Non autonomous systems - VOR/DME, DME/DME, SAT NAV, LORAN.

Question 7

What is the World Geodetric Refererence System?

Answer 7

WGS84
Global earth’s centred reference system
ICAO requirement since 1998

Question 8

Mean Earth Circumference

Answer 8

40,000km

21,600NM

Question 9

Mean Earth Diameter

Answer 9

12,735 km

6876 NM

Question 10

Rotational Speed at Equator

Answer 10

1670 km/hr
900 kts
15°/hr

Question 11

What is a Great Circle and give example?

Answer 11

A circle on the surface of a sphere which lies in a plane passing through the sphere’s centre.
Represents the shortest distance between any two points on a sphere - preferred route taken by a ship or aircraft.
Equator

Question 12

Describe the Equator

Answer 12

Great circle
0 degrees of latitude
Perpendicular to polar axis
Divides the earth into northern and southern hemisphere.

Question 13

What are circles of Longtitude?

Answer 13

Great circles
Run through the poles
Perpendicular to the equator

Question 14

What is a Meridian?

Answer 14

Semi great circle
Joining North and South poles

Prime Meridian used since 1884.

Question 15

What are Parallels?

Answer 15

Small circle which parallel to the equator and perpendicular to the polar axis.

Question 16

What is Latitude and how is it measured?

Answer 16

Origin centre of earth

Measuring along a meridian from the equator to the local parallel.

Question 17

What is Longitude and how is it measured?

Answer 17

Origin centre of earth

Measuring from 0° to 180° between the prime meridian and the local meridian.

Question 18

Definition of NM

Answer 18

The distance measured along an arc of orthodromy intercepted by an angle of one minute of arc measured at the centre of the earth.
1.852km.

Question 19

What are Km used for in Aviation?

Answer 19

Visibility

Required horizontal distance to clouds.

Question 20

What are Ft used for in Aviation?

Answer 20

Altitude
Height
Required vertical distance to clouds.

Question 21

What are Kts used for in Aviation?

Answer 21

1kt = 1NM/H
AC horizontal speed
Wind speed.

Question 22

What are Ft/m and m/s used for in Aviation?

Answer 22

Vertical speed

Wind speed.

Question 23

Rule of thumb; Ft <>m

Answer 23

Ft / 3 - 10% = m

M x 3 + 10% = ft.

Question 24

Rule of thumb; NM <> km

Answer 24

NM x 2 - 10% = km

Km / 2 + 10% = NM.

Question 25

Rule of thumb; NM <> ft

Answer 25

1 NM = 6000’ Approx

Question 26

Rule of thumb; Km <> ft

Answer 26

1 km = 3300’ approx.

Question 27

Rule of thumb; L <> US GAL

Answer 27

L / 4 + 5% = US GAL

US GAL × 4 - 5% = l.

Question 28

Rule of thumb; Kg <> lb

Answer 28

Kg x 2 + 10% = lb

Lb / 2 - 10% = kg.

Question 29

What is Declination and what is it’s value?

Answer 29

The angle between the plane of orbit and the equator

23.5°

Question 30

Define Civil Twilight

Answer 30

When the centre of the sun lies 6° below the horizon.

Question 31

What is the average length of Twilight at 50°N?

Answer 31

40 min.

Question 32

What is the difference to SR and SS times in North and South Germany?

Answer 32

24 mins.

Question 33

When does a day start?

Answer 33

At lower culmination of the sun. At midday the sun is at its upper culmination.

Question 34

What is UTC?

Answer 34

Universal Time Coordinated
Based on international atomic time
Time reference in navigation.

Question 35

What is the CET reference Meridian?

Answer 35

15°E

Question 36

Explain Earth Magnetism

Answer 36

Two magnetic poles, not collated with geographical poles, very small annual movement.
Magnetic field therefore no magnetic grid possible, many areas of disturbance, magnetic poles are not exactly opposite.

Question 37

Describe Magnetic Variation

Answer 37

The angle between the magnetic meridian and the true meridian.

Question 38

Affects of Material on Magnetism

Answer 38

Any ferromagnetic material or electrical circuit will affect the compass system
The compass direction may deviate from the magnetic direction.

Question 39

What is Deviation?

Answer 39

The angle between MN and CN

Individual to each AC and changes with AC HDG

Question 40

Calculation of TH to CH

Answer 40

T
V
M
D
C
Add West

Question 41

List properties of Map Projections

Answer 41

True angles
True shapes
True scale.

Question 42

What are True Angles?

Answer 42

Angle between meridians and parallels of latitude = 90 degrees.
On a map this angle is almost met.
Important feature on maps.

Question 43

What are True Shapes?

Answer 43

Importance depends upon the nav method

Must not be perfect.

Question 44

What is True Scale?

Answer 44

Must be fairly good for purpose

Important feature, but hard to meet

Question 45

List types of Projection

Answer 45

Cylindrical
Conical
Azimuthal

Question 46

What are the references for Conical Projection?

Answer 46

Cone touches surface of the earth at standard parallel

Projection point is the centre of the earth.

Question 47

What is the preferred Method of Projection for navigation?

Answer 47

Lambert’s Conical Projection

Question 48

How is a Meridian represented on the Lambert’s Conical Projection?

Answer 48

Straight line converging towards the poles.

Question 49

How are Parallels represented on Lambert’s Conical Projection?

Answer 49

Concentric arcs of circles.

Question 50

How is a Great Circle represented on Lambert’s Conical Projection?

Answer 50

Approximately straight line.

Question 51

How is a Rhumb Line represented on Lambert’s Conical Projection?

Answer 51

Curved towards the equator.

Question 52

What is the scale of Aeronautical Charts?

Answer 52

1:500 000

Question 53

What is the scale of En Route Charts?

Answer 53

1:1 000 000

Question 54

What are the components of Dead Reckoning Navigation?

Answer 54

Air Vector - HDG and TAS
Ground Vector - Track and GS
Wind Vector - Wind Direction and Speed.

Question 55

What is IAS and when is it used by ATS?

Answer 55

Indicated Air Speed

Speed control

Question 56

What is TAS and how can ATC see it?

Answer 56

True Air Speed is the speed of the Air Vector

TAS seen on FPs.

Question 57

What is GS and how do ATC see it?

Answer 57

Ground Speed is the Ground Vector

GS is displayed on the radar screen.

Question 58

What is Drift Angle (DA)?

Answer 58

Angle between HDG and TRK

Air vector -> Ground vector

Question 59

What is Wind Correction Angle (WCA)?

Answer 59

Angle between DTK and HDG
(Ground vector -> Air vector)
Equal to DA but opposite orientation.

Question 60

What is Wind Angle (WA)?

Answer 60

Angle between Ground Vector and Wind Vector
- angle from the left
+ angle from the right

Question 61

What is Relative Wind Angle (RWA)?

Answer 61

Angle between Air Vector and Wind Vector
- angle from the left
+ angle from the right

Question 62

Name the Method used to calculate CWC, HWC and TWC

Answer 62

Third Method.

Question 63

What is the calculation for WCA?

Answer 63

CWC x 60 / TAS

Question 64

What documents and materials can be used for Flight Planning?

Answer 64

Charts
Met data
Nav materials

Question 65

What must charts enable?

Answer 65

Navigation
Avoidance of obstacles
Avoidance of restricted areas
Flight path according to the airspace structure.

Question 66

What Information must a chart show?

Answer 66

Terrestrial state
Obstacles
Airspace structure
Nav aids

Question 67

List considerations when using Waypoints for Navigation

Answer 67

Must be clearly identified and not too close to each other

Question 68

How is Obstacle Avoidance dealt with when Flight Planning?

Answer 68

Check the area 5NM around estimated position for highest obstacle or elevation and add 500’.
For more detail additional waypoints can be added.

Question 69

What are the components of Vertical Navigation?

Answer 69

Climb
Cruise
Descent

Question 70

What is the Descent Gradient?

Answer 70

5.2%

300’/NM

Question 71

What is the Constant ROD for a Small AC?

Answer 71

500’/min

Question 72

What is TH?

Answer 72

True HDG

Angle between TN longitudinal axis.

Question 73

What is TT?

Answer 73

True Track

Angle between TN and Track

Question 74

What is RB?

Answer 74

Relative Bearing
Angle between Longitudinal axis and the BRG
Measured in clockwise direction.

Question 75

What is TB?

Answer 75

True Bearing

TH + RB

Question 76

What is QDM?

Answer 76

Magnetic BRG to

Question 77

What QDR?

Answer 77

Magnetic BRG from

Question 78

What is QUJ?

Answer 78

True BRG to

Question 79

What is QTE?

Answer 79

True BRG from

Question 80

What is a RBI?

Answer 80

Relative Bearing Indicator

Question 81

What is a MDI?

Answer 81

Moving Dial Indicator

Question 82

What is a RMI?

Answer 82

Radio Magnetic Indicator

Question 83

Describe Homing

Answer 83

Procedure for flying direct to a fix, does not take wind into account.

Question 84

What are the disadvantages of Homing

Answer 84

Permanent HDG changes
Not the shortest route
Unable to maintain required TRK
Inbound to a station only - short distance

Question 85

What is Tracking and what are it’s advantages?

Answer 85

Flight on a required inbound / outbound course

Direct and shortest route to and from a fix.

Question 86

What is a CDI inc GP?

Answer 86

Course Deviation Indicator inc Glide Path

Question 87

What is a HSI inc HDG?

Answer 87

Horizontal Situation Indicator inc Heading

Question 88

What is PA and give examples?

Answer 88

Precision Approach

ILS, MLS, GLS, PAR, GNSS with SBAS Cat I

Question 89

What is APV and give examples?

Answer 89

Approach with Vertical Guidance
GNSS with Baro-VNAV
GNSS with SBAS

Question 90

What is NPA and give examples?

Answer 90

Non Precision Approach

LOC, VOR, NDB, GNSS, SRA, TACAN

Question 91

What is the MDA(H) or DA(H) for a Type A App?

Answer 91

250’

Question 92

What is the DA(H) of a Type B App?

Answer 92

Below 250’.

Question 93

What are the Type B Cat I Lowest Operating Minima?

Answer 93

DH not lower than 200’
Vis not less than 800m or
RVR not less than 550m.

Question 94

What are the Type B Cat II Lowest Operating Minima?

Answer 94

DH lower than 200’ but no lower than 100’

RVR not less than 300m.

Question 95

What are Type B Cat IIIA Lowest Operating MInima?

Answer 95

DH lower than 100’, or no DH

RVR not less than 175m.

Question 96

What are Type B Cat IIIB Lowest Operating Minima?

Answer 96

DH lower than 50’, or no DH

RVR less than 175m but not less than 50m.

Question 97

What are Type C Cat IIIC Lowest Operating Minima?

Answer 97

No DH and no RVR limitations.

Question 98

What information does 2D Approach give?

Answer 98

Lateral guidance

Question 99

What information does a 3D Approach give?

Answer 99

Lateral and Vertical Guidance.

Question 100

What reference point is used to calculate DH?

Answer 100

Threshold elevation.

Question 101

What reference point is used to calculate MDH?

Answer 101

Aerodrome Elevation or Threshold Elevation

Question 102

When would Threshold Elevation be used as the reference point for MDH?

Answer 102

If the threshold is more than 7’ below the Aerodrome elevation.

Question 103

What are the segments of an Instrument Approach?

Answer 103

1. Arrival Route
2. Initial Approach
3. Intermediate Approach
4. Final Approach
5. Missed Approach

Question 104

What are the fixes used on an Instrument Approach?

Answer 104

IAF - Initial App Fix
IF - Intermediate Fix
FAF - Final App Fix
MAPt - Missed App Point

Question 105

At what parts of an IAP would the MOC be 300m?

Answer 105

Arrival Segment
Initial App Segment
Missed App Segment

Question 106

What is the MOC at the Intermediate App Segment?

Answer 106

150m

Question 107

At what part of the IAP would OCH be used?

Answer 107

Final App Segment

Question 108

What Methods can be used to design the Initial App with only one Ground Station?

Answer 108

Reversal Procedures

Racetrack Procedures.

Question 109

What types of Turn Method can be used in a Reversal Procedure?

Answer 109

Procedure turns

Base turns

Question 110

List the Benefits of Area Navigation

Answer 110

Safety
Navigational flexibility
Shorter routes
Reduced time en route
Less fuel usage
Reduced workload for ATCOs and Aircrew

Question 111

Name the types of Waypoints

Answer 111

Fly by

Fly over

Question 112

Name RNAV System Sensors

Answer 112

VOR/DME
DME/DME
GNSS
ILS
INS
LORAN

Question 113

What Improvements can an Augmentation System offer to a GNSS?

Answer 113

Accuracy
Reliability
Availability.

Question 114

What does EPU mean?

Answer 114

Estimation Position Uncertainty

Question 115

What is the Maximum Course Deviation on a CDI?

Answer 115

10 degrees.

Question 116

How many Satellites are required for a 3D Position?

Answer 116

4

Question 117

How many Satellites are required to use GNSS as a ‘Stand Alone’ Navigation Source?

Answer 117

At least 6

Question 118

What is the number of Satellites required for Fault Detection?

Answer 118

5

Question 119

List Navigational Systems used in an FMS

Answer 119

INS/INS 
DME/DME 
VOR/DME
LOC
DME/DME-LOC
VOR/DME-LOC

Question 120

What Items are contained in the Navigation Database in an FMS?

Answer 120

Radio Navigation stations 
Waypoints 
Airports and runways
En-route airways
SIDS 
STARS 
Holding patterns.

Question 121

How often is the Navigation Database in an FMS updated?

Answer 121

Every AIRAC cycle - 28 days.

Question 122

What type of Range information does a DME give?

Answer 122

Slant range

1NM = ~6000’

Question 123

What radio navigation aids can the FMS use?

Answer 123

DME
VOR
LOC

Question 124

What is RNAV and what is it used for?

Answer 124

Lateral navigation
Track keeping
Turn anticipation
Radius to fix turn

Question 125

What is VNAV and what is it used for?

Answer 125

Vertical navigation
Climb and descent profiles
Approach operation

Question 126

What is PBN?

Answer 126

Performance Based Navigation
Area navigation based on performance requirements for AC operating along an ATS route, on an instrument approach procedure or in a designated airspace.

Question 127

What are the benefits of PBN?

Answer 127

Improves safety
Improves operating returns
Increases airspace capacity
Environmentally friendly

Question 128

What are the benefits of PBN to ATC?

Answer 128

Safety culture
Fewer radio transmissions
Less chance of readback/hearback errors
Greater predictability
Airspace containment
Fewer go arounds
Less transit occupancy time in airspace
Changing roles and responsibilities
Best practice involving stakeholders in design

Question 129

List the errors summarised to calculate the Total System Error (TSE)

Answer 129

Path Definition Error (PDE)
Navigation System Error (NSE)
Flight Technical Error (FTE)

Question 130

What are the advantages of RNP over RNAV?

Answer 130

Operation up to TSE 0.1NM
No surveillance through ATCO required
No direct communications required
Enables a curved path - radius to fix and approach procedures

Question 131

What is the main difference between RNP and RNAV and what does this enable?

Answer 131

RNP requires on-board performance monitoring and alerting which enables closer route spacing and better integrity

Question 132

What are the navigation specifications of PBN?

Answer 132

Accuracy
Integrity
Continuity
Functionality

Question 133

What equipment can be used to establish a Hold?

Answer 133

Ground station (VOR, NDB…)
Intersection
DME fix
RNAV Waypoint

Question 134

What is turn criteria for a standard holding pattern?

Answer 134

ICAO std turn - 3°/sec, 25° bank

Question 135

What are the timing criteria for a standard holding pattern?

Answer 135

1 min (outbound leg) FL140 and below
1.5 min (outbound leg) Above FL140

Question 136

What holding pattern levels may be annotated on a chart?

Answer 136

Minimum holding level

Minimum holding altitude

Question 137

What is the speed limitation for flights at FL140 and below in a standard holding pattern?

Answer 137

230 kts (IAS)

Question 138

What is the speed limitation for flights above FL140 to FL200 in a standard holding pattern?

Answer 138

240 kts (IAS)

Question 139

What is the speed limitation for flights above FL200 in a standard holding pattern?

Answer 139

265 kts (IAS)

Question 140

Describe the Sector 1 Entry

Answer 140

Parallel Entry Sector
Approach fix from NW
Size of sector = 110°

Question 141

Describe the Sector 2 Enrty

Answer 141

Offset or Teardrop Entry Sector
Approach fix from SW
Size of sector = 70°

Question 142

Describe the Sector 3 Entry

Answer 142

Direct Entry Sector
Approach fix from NE to SE
Size of sector = 180°

Question 143

When may a higher hold speed above FL140 be allowed?

Answer 143

In case of SEV TURB but only permitted after prior consent by the relevant ATSU

Question 144

What is navigation?

Answer 144

The process or method with which ans AC is guided safely from its starting point to a destination, determining the position of the AC, monitoring its flight path and making any necessary corrections.