Tech Block 3 Flashcards
- When are reduced thrust take off’s used?
o There is a long runway available
o MTOW is low
- What are the 2 methods for reduced take offs?
Fixed derate (i.e 10%-20%) - For a given ambient condition, the thrust reduction achieved by selecting another certified takeoff rating that is lower than the maximum takeoff rating.
Assumed temperature - Based on a certified takeoff rating and ambient condition, the thrust reduction achieved by selecting the rated thrust for a temperature that is higher than the outside air temperature.
- Using an assumed temperature reduced thrust take off, what speed corrections are there?
o V1 is reduced to allow for slower acceleration but other speeds are the same for the actual TOW
- Factors that affect the engine thrust…
o Mass airflow increases…Thrust increases
o Temp increases…Thrust decreases
o Humidity increases…Thrust decreases
o Altitude increases..Pressure decreases…Thrust decreases
- What is ram effect?
As the aircraft increases speed the increase in density and mass flow through the engine results in an increase in thrust
- An increase in engine RPM results in…
o Higher mass air flow
o SFC decreases
o Higher temps
o Thrust output increases
- Two ways of measuring thrust are:
o EPR (the ratio of inlet pressure and turbine exit pressure) o N1 (low pressure rotor speed)
- Engine bleed air has what effect:
o EPR decreases (engine pressure ratio)
o EGT increases
o Thrust decreases
- What is a compressor stall / surge?
A reverse flow of air through the engine caused by unstable air
- Reverse thrust is most efficient at…
o high speeds
- Documents required for international flight?
o C of A o Aircraft F/Manual o Aircraft Registration o Flight Crew Licences o Valid Maint. Release o Load Sheet o Flight records o List of Crew & Passengers o Cargo bills of lading and manifests o List of disposable stores and spare parts o Route Guide
- What separation is provided by ATC between IFR & VFR traffic in Class “C” & “D” airspace?
o “C” IFR from IFR, VFR & SVFR
o “D” IFR from IFR, SVFR. IFR not from VFR, they are given traffic information.
o “E” IFR from IFR. IFR and VFR get traffic information. Shall not include control zones.
- When does the Runway Centreline Lights (RCLL) turn red?
o White to a point 914m from runway end.
o Alternate white &;a red between 914m & 300m.
o Red between 300m & the runway end.
- Definition of CAVOK?
o The term CAVOK is an acceptable contraction (meaning Ceiling and Visibility OK) for international use. It indicates that:
o No clouds exist below 5,000 feet or below the highest minimum sector altitude, whichever is greater, and no cumulonimbus are present.
o Visibility is 10 kilometres or more and,
o No precipitation, thunderstorms, sandstorm, dust storm, shallow fog, or low drifting dust, sand or snow is occurring.
- What are the classes of dangerous goods?
o Class 1 Explosives Every
o Class 2 Gasses Girl
o Class 3 Flammable Liquids Likes
o Class 4 Flammable Solids Sex
o Class 5 Oxidising Substances Orally
o Class 6 Poisonous / Infectious substances Plus
o Class 7 Radioactive substances Receiving
o Class 8 Corrosive agents Cum
o Class 9 Those that don’t fit above, eg magnetic materials
- If the static port blocks during the climb, what will the altimeter read?
o Whatever the reading was at the time of the blockage.
- What is the definition of Part 121?
o Pax configuration of more than 30 seats (excluding crew member seats)
o Payload capacity of more than 3410 Kg
- What is the purpose of Part 119?
o To prescribe the certification requirements for operators to perform Air Operations and the operating requirements for the continuation of this certification. Air Operations include Air Transport Operations (ATO) and Commercial Transport Operations (CTO).
- What is the purpose of Part 61?
o Prescribes the requirements to hold pilot licences and ratings; the prerequisites for those qualifications; and their privileges and limitations.
- What is the purpose of Part 91?
o Part 91 is an important rule as it forms the basis of general operating and flight rules for the New Zealand aviation environment. The requirements ensure that the safe operation of aircraft is possible with the minimum endangerment to persons and property.
- What is the critical engine on a propeller aircraft?
o On a propeller aircraft with conventionally rotating propellers, the critical engine is the left outboard engine, conversely with propellers rotating anti-clockwise, the outboard right engine would be critical. Counta/contra-rotating propellers do not have a critical engine.
o With conventionally rotating propellers, the down-going blade on each engine has a greater angle of attack producing more lift (thrust) thus offsetting the thrust line on each engine to the right. The right engine (on conventionally rotating propellers) has a greater arm to the C of G causing greater yaw, making the left engine critical.
- How does crosswind affect the critical engine?
o On a propeller driven aircraft, a crosswind from the opposite side to the critical engine will assist the situation because the yaw required to offset that which is produced by the failure of the critical engine will be assisted by the effect of the crosswind (weathercocking).
o The reverse situation will make matters worse. Crosswind from the same side as the critical engine will require even more demand from the rudder. The yaw produced by the failure of the critical engine will be compounded by the effect of the aircraft weathercocking.
- What is ETP and what is the formula?
o Equi time point – a point enroute where it will take the same time to go back as it will to carry on
o Dist to ETP = Total Distance x GS home
/ (G/S onward + G/S home)
o With a tailwind out ETP will move closer to departure.
o ETP moves into wind
- What is PNR and what is the formula?
Point of no return – a point which is based on fuel (endurance) at which you have the fuel to return if req’d
PNR Formula
Time to PNR (min.s) =
Endurance (min.s) x G/S home
G/S out + G/S home
Dist to PNR =
Endurance (hrs(decimals)) x G/S out x G/S home
G/S out + G/S home
