Radio Aids and Flight Planning 2

Question 1

Without RAIM capability, the pilot of a non-WAAS GPS-equipped aircraft:

A) May still navigate IFR for enroute and terminal operations and even fly GPS approaches if the CDI display sensitivity can be manually changed.
B) Can execute a GPS stand-alone approach if a DME source is available for position updating at the destination airport.
C) Is permitted to continue using GPS as the primary navigation source for IFR flight as long as a baro-input from the aircrafts altitude encoder is continuously available.
D) Will have no assurance of the accuracy of the GPS position.

Answer 1

D) Will have no assurance of the accuracy of the GPS position.

Question 2

TSO 129(a)-compliant GPS avionics must be capable of automatically increasing the CDI display sensitivity as an aircraft moves closer to the airport during a GPS approach. This “stepping up” or “tightening” of CDI sensitivity provides for the greater tracking accuracy required during the terminal and approach phases. From the following statements regarding GPS avionics operation during an approach, select those which are correct:

1) When the aircraft reaches 30NM or less from the destination and an approach for that airport has been loaded into the flight plan, the CDI sensitivity automatically changes from +/- 5NM to the terminal value of +/- 1NM (full scale deflection).
2) Manually setting the CDI display sensitivity automatically changes the RAIM sensitivity on all IFR certified GPS avionics.
3) At a distance of 2NM inbound to the final approach fix waypoint the CDI display sensitivity begins to transition to the approach value of +/- 0.3NM and will have achieved this extra sensitivity by the time the aircraft passes the FAF waypoint.
4) When the aircraft arrives at the missed approach waypoint, waypoint sequencing for the missed approach segment is always automatic and directs the pilot to fly the missed approach holding waypoint.
5) As the aircraft starts to fly the missed approach segment the CDI display sensitivity reverts to the enroute value of +/- 5NM.
6) If RAIM is not available when crossing the final approach fix waypoint, the pilot must execute the missed approach procedure.

A) 2, 3, 5.
B) 3, 4, 5.
C) 1, 3, 6.
D) 4, 5, 6.

Answer 2

C) 1, 3, 6.

Question 3

From the following statements that relate to the RAIM component of a TSO C-129 compliant GPS receiver, select the one which is correct:

A) RAIM is able to predict the scheduled removal of satellites from service as well as being able to predict satellite failure.
B) If RAIM is not available prior to crossing the final approach waypoint during an approach, the GPS receiver will not go into the approach “ACTIVE” mode.
C) RAIM function requires continuous input from ground based NAVAIDs or facilities.
D) The RAIM alert level will automatically change when a pilot manually sets the CDI scale factor (or sensitivity) on any TSO C-129 receiver.

Answer 3

B) If RAIM is not available prior to crossing the final approach waypoint during an approach, the GPS receiver will not go into the approach “ACTIVE” mode.

Question 4

WAAS-corrected GPS signals offer approximately 5 times greater position accuracy than basic or uncorrected GPS signals. Another true statement related to the use of this satellite based augmentation would be:

A) The database of WAAS enabled GPS receivers are compatible with those of earlier non-WAAS receivers.
B) WAAS-capable GPS receivers use differential correction signals to improve the accuracy of the position solutions but still rely on RAIM function to provide integrity.
C) WAAS geo satellites provide a ranging signal which improves availability.
D) WAAS-capable receivers are able to predict the availability of LPV approaches at destination airports.

Answer 4

C) WAAS geo satellites provide a ranging signal which improves availability.

Question 5

The statements that follow relate to GPS stand-alone approaches. Identify those that are correct.

1) Stand-alone approach design is usually based on a “T” pattern of waypoints which eliminates the need for a procedure turn.
2) GPS stand-alone approaches are charted as “RNAV(GNSS) RWY XX”.
3) Pilot verification of GPS stand-alone approach waypoints is not required if they have been retrieved from a current data base supplied by a Transport Canada Approved vendor.
4) GPS stand-alone approaches are charted as “(GNSS)” which appears following the runway identification.
5) Stand-alone approach waypoints retrieved from a current database and inserted into the active flight plan may be deleted and replaced by manually entering the new coordinates for pilot defined waypoints that facilitate direct routings to the FAF.
6) General Aviation pilots do not require a special license endorsement to qualify them to conduct GPS stand-alone approaches.

A) 1, 2, 6.
B) 3, 4, 5.
C) 2, 3, 6.
D) 1, 3, 4.

Answer 5

A) 1, 2, 6.

Question 6

Prior to commencing a GPS-based approach, pilots using TSO C129/129(a) avionics should:

A) Ensure that ATC approval has been received to descend to the equivalent of CAT1 ILS minima.
B) Determine that the avionics will present all of the approach waypoints as flyover waypoints.
C) Ensure that the CDI sensitivity is operating in the terminal mode if conducting an overlay approach.
D) Use the RAIM prediction feature to ensure that approach level RAIM will be supported for the ETA (+/- 15min).

Answer 6

D) Use the RAIM prediction feature to ensure that approach level RAIM will be supported for the ETA (+/- 15min).

Question 7

When using a WAAS certified GPS (TSO C146a) and planning a GPS approach at the alternate, is the pilot required to manually perform a RAIM check in flight?

A) Yes, as well as prior to flight.
B) Yes, periodically during the flight and at least once prior to the mid-point of the flight to destination.
C) No, a WAAS-certified GPS will complete a RAIM check and self test automatically.
D) No, unless there is a WAAS NOTAM predicting a satellite outage at the destination.

Answer 7

C) No, a WAAS-certified GPS will complete a RAIM check and self test automatically.

Question 8

A WAAS NOTAM predicts that approach level RAIM will not be available at your destination. Upon arrival at the aerodrome during the period covered by the NOTAM, you note that published approach level RAIM is available. What are your options for the approach?

A) You may not use any GPS-based approaches as a result of the published NOTAM.
B) You may fly a GPS-based approach at the airport, but only to LNAV minima.
C) You are safely able to use a GPS-based approach.
D) You may only proceed with available GPS overlay approaches and must monitor the underlying NAVAID.

Answer 8

C) You are safely able to use a GPS-based approach.

Question 9

What requirements must be met if a GNSS approach is planned at both the destination and the alternate aerodrome?

A) The destination and alternate aerodromes are separated by at lease 75NM when both are located in Nunavut, or north of 56 degrees N latitude in Quebec and Labrador.
B) The pilot must use the alternate minima requirements for “No IFR Approach Available”.
C) A GNSS approach cannot be planned at both the destination and the alternate - one aerodrome must have as approach based on traditional NAVAIDs.
D) An additional RAIM check must be completed prior to beginning the descent for the destination.

Answer 9

A) The destination and alternate aerodromes are separated by at lease 75NM when both are located in Nunavut, or north of 56 degrees N latitude in Quebec and Labrador.

Question 10

Do cold temperatures have any effect on a Constant Descent Angle style on non-precision approach?

A) Yes, the approach is steeper in cold temperatures due to a smaller altimeter error over the FAF than at the MDA.
B) No, as long as the appropriate cold temperature corrections are made, there will be no effect on the descent angle.
C) Yes, the approach is shallower in cold temperatures due to a larger altimeter error over the FAF than at the MDA.
D) No, cold temperature corrections are not required when using this descent method because the descent angle does not vary with temperature.

Answer 10

C) Yes, the approach is shallower in cold temperatures due to a larger altimeter error over the FAF than at the MDA.

Question 11

Pick the correct statements with reference to 406MHz ELTs:

1) 406MHz ELTs provide position information accurate within a radius of about 2-5km.
2) 406MHz is an exclusive, dedicated frequency that cannot be activated by any other type of equipment.
3) 406MHz ELTs can be tested for a maximum of 5 seconds within the first 5 minutes of every hour just like the 121.5MHz ELTs.
4) One drawback of 406MHz ELTs is that there are a higher number of false alerts.
5) Users of 406MHz ELTs should listen on 406MHz prior to flight to ensure that the ELT is not transmitting.
6) An alert will be sent to the Joint Rescue Coordination Centre only after the switch on the 406MHz ELT has been selected to the “ON” position for more than 50 seconds.

A) 1, 3, 6.
B) 1, 2, 6.
C) 2, 3, 5.
D) 2, 4, 6.

Answer 11

B) 1, 2, 6.

Question 12

With regards to Primary (PSR) and Secondary (SSR) Surveillance Radar, which statement is true?

A) PSR requires the aircraft to be equipped with a transponder and is capable of detecting weather.
B) SSR requires the aircraft to be equipped with a transponder and is capable of detecting weather.
C) PSR does not require a transponder and is capable of detecting weather.
D) SSR does not require a transponder and is incapable of detecting weather.

Answer 12

C) PSR does not require a transponder and is capable of detecting weather.

Question 13

A pilot forgets to set 29.92” from 30.22” climbing through FL180 to FL220. After levelling at his assigned altitude, the pilot realizes the problem and then sets 29.92 on the altimeter subscale. What indications would be seen by the ATS controller monitoring the aircrafts altitude readout?

A) An immediate indication of 300 ft loss.
B) Nothing, because the subscale is not geared to the encoding altitude readout.
C) An immediate indication on 300 ft altitude gain.
D) No noticeable indication provided the subscale is moved very slowly.

Answer 13

B) Nothing, because the subscale is not geared to the encoding altitude readout.

Question 14

Which of the following is true with respect to airborne weather radar?

A) Drop size determines radar echo intensity to a much greater extent than does drop number.
B) Cloud that is visible to the naked eye will always be displayed on the indicator.
C) Drops of frozen precipitation provide stronger radar returns than do drops of liquid precipitation.
D) The intensity of radar echoes depends solely upon the number of drops of frozen precipitation present per unit volume of storm cell cloud.

Answer 14

A) Drop size determines radar echo intensity to a much greater extent than does drop number.

Question 15

Two characteristic weather radar scope patterns known as “hooks” and “fingers” identify areas of:

A) Lightning and heavy static discharge.
B) Moderate to heavy icing in cloud.
C) Convergent air flow and ice crystal formation.
D) Hail and turbulence.

Answer 15

D) Hail and turbulence.

Question 16

Which of the following statements is true with respect to airborne weather radar?

A) A thunderstorm echo displayed at 90NM on your aircraft indicator will decrease in intensity as distance is decreased from the antenna.
B) The intensity of a thunderstorm echo displayed at 90NM on your aircraft indicator would decrease as the distance from the echo increased.
C) As the gain control is adjusted, the radar beam width changes to give greater penetration of target storm cells.
D) A thunderstorm echo will display the same intensity at various distances from the antenna.

Answer 16

B) The intensity of a thunderstorm echo displayed at 90NM on your aircraft indicator would decrease as the distance from the echo increased.

Question 17

A thunderstorm contouring red on your airborne weather radar set that is estimated to have a radar top over 30,000 feet and displaying a steep gradient should be avoided by at least:

A) 5NM.
B) 10NM.
C) 20NM.
D) 30NM.

Answer 17

C) 20NM.

Question 18

When a thunderstorm contours on the airborne weather radar indicator, it should be avoided by at least:

A) 5NM when the aircraft is flying above the freezing level.
B) 5NM when the aircraft is flying below the freezing level.
C) 10NM when the aircraft is flying below the freezing level.
D) 10NM when the aircraft is flying near the tropopause.

Answer 18

B) 5NM when the aircraft is flying below the freezing level.

Question 19

An airborne weather radar system is susceptible to a significant reduction is storm cell detection capability known as ATTENUATION. This loss of effectiveness is caused by:

A) Antenna side lobe energy reflecting back from ground to aircraft.
B) Overcompensation by the sensitivity time control circuit when intense storm cells move to within 20NM of the aircraft.
C) An uneven deposition of rime ice on the radome.
D) The presence of moderate to heavy rainfall areas in the antenna near field range.

Answer 19

D) The presence of moderate to heavy rainfall areas in the antenna near field range.

Question 20

When flying in moderate rain and attempting to locate embedded CBs, the pilot should:

A) Use the tilt control “up” to assess the weather above the rain.
B) Do nothing because rain attenuates the radar return.
C) Use different range scales.
D) Use various methods such as reducing the gain for brief periods to identify the most intense areas of precipitation. Selection of the REACT or contour functions on the radar control unit may also be useful.

Answer 20

D) Use various methods such as reducing the gain for brief periods to identify the most intense areas of precipitation. Selection of the REACT or contour functions on the radar control unit may also be useful.

Question 21

Use of the tilt function on airborne weather radar to provide an indication of a thunderstorm threat can be best accomplished by tilting the antenna beam to scan:

A) The middle/lower area of the CB first.
B) The top 5% of a CB.
C) Upper region of a cell.
D) The lower 5% of the CB

Answer 21

A) The middle/lower area of the CB first.

Question 22

A true statement regarding the main advantage of a Lightning Detection System would be:

A) In addition to detecting lightning, it is able to detect intense precipitation.
B) It provides accurate bearing and distances to lightning strikes.
C) It is able to detect electrical activity associated with a thunderstorm that is located behind a mountain range.
D) Turbulence detection is enhanced when compared to normal airborne weather radar equipment.

Answer 22

C) It is able to detect electrical activity associated with a thunderstorm that is located behind a mountain range.

Question 23

ACARS is:

A) A Transport Canada program for reporting communication issues between aircraft and ATC.
B) A digital datalink system used to transmit short, text based messages between aircraft and ground stations.
C) A VHF communication system for voice transmissions between aircraft and company.
D) A NavCanada system used to broadcast weather information to pilots within certain high traffic areas.

Answer 23

B) A digital datalink system used to transmit short, text based messages between aircraft and ground stations.

Question 24

Select the correct statements with reference to ACARS:

1) It can be used to obtain text-based station and enroute weather.
2) It can be used to obtain graphic weather.
3) It can be used to send and receive messages to and from company.
4) It can be used to obtain an IFR clearance.
5) ACARS can automatically detect and transmit OUT, OFF, ON and IN times.
6) An onboard printer is required for ACARS use.

A) 1, 3, 5, 6.
B) 1, 2, 4, 5.
C) 1, 2, 5, 6.
D) 1, 3, 4, 5.

Answer 24

D) 1, 3, 4, 5.

Question 25

SATCOM is:

A) Standard Abbreviated Text Communications - Aircraft to aircraft text communications systems.
B) Satellite Communications - Voice and Data communications via satellite.
C) Satellite Company Operating Monitoring - Company flight watch and tracking via satellite-based position.
D) Satellite Command - satellite-commanded updates to FMS position.

Answer 25

B) Satellite Communications - Voice and Data communications via satellite.

Question 26

Aircraft equipped with ADS-B IN capability:

A) No longer need a Mode C or S transponder.
B) Can receive traffic information and upload text and graphic weather.
C) Can use this function to fly WAAS-based approaches.
D) Are not required to make position reports in non-radar airspace, unless specifically requested by ATC.

Answer 26

B) Can receive traffic information and upload text and graphic weather.

Question 27

Which of the following can ADS-B provide?

1) Position determination using satellite navigation (GPS) for use by ATC as well as other aircraft.
2) Terrain avoidance warnings.
3) The ability to upload text and graphic weather.
4. Aircraft tracking in areas without radar coverage.
5. Communications between aircraft.
6. Windshear avoidance warnings.

A) 2, 3, 6.
B) 1, 4, 5.
C) 1, 2, 4.
D) 1, 3, 4

Answer 27

D) 1, 3, 4

Question 28

Which of the following is NOT true with regards to ADS-B OUT capability?

A) Aircraft data is transmitted once per second.
B) Position information is determined using satellite navigation.
C) It is integrated with TCAS for traffic avoidance.
D) It can serve as an alerting device for downed aircraft.

Answer 28

C) It is integrated with TCAS for traffic avoidance.

Question 29

ADS-C is defined as:

A) A method of automatically providing position reports to ATC via datalink based on FMS position.
B) A collision avoidance system that gives flight crews awareness of surrounding traffic and resolution advisories in the case of a predicted collision.
C) An aircraft tracking system using satellite based position, which can be used in non-radar environments.
D) A ground tracking system that determines aircraft position via transponder interrogation.

Answer 29

A) A method of automatically providing position reports to ATC via datalink based on FMS position.

Question 30

Which of the following statements is correct with regards to multilateration (MLAT)?

1) MLAT uses a system of strategically placed ground stations to send interrogations and receives replies from transponders.
2) MLAT is limited to monitoring ground movements of aircraft and vehicles.
3) MLAT functions on a principle known as Time Distance of Arrival.
4) MLAT cannot receive replies from Mode A transponders.
5) MLAT calculates the difference in transponder response time at multiple ground receivers and compares the results to determine a position.
6) MLAT can be used to transmit messages from ATC to aircraft and vehicles.

A) 1, 2, 6.
B) 2, 4, 5.
C) 1, 3, 5.
D) 1, 4, 6.

Answer 30

C) 1, 3, 5.