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Contents

AircraftLightingPg-06

The AircraftPg-03

TheTrainingPg-04

EmergencyEquipmentPg-08

Ice and RainProtectionPg-10

TCASPg-12

AuxilaryPower UnitPg-15

Caution and WarningPg-07

FireProtectionPg-09

GPWSPg-11

EnginesPg-14

HydraulicsPg-17

Thank you for purchasing the 737NGX training from Angle

of Attack. We appreciate your support and hope you enjoy

this product!

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Primary Flight ControlPg-18

Landing Gearand BrakesPg-20

AirConditioningPg-23

FuelSystemPg-26

350HDG

AutoflightPg-30

FMSPg-31

InstrumentsPg-32

Secondary Flight ControlPg-19

BleedAirPg-22

PressurizationPg-24

ElectricalSystemPg-28

The Groundwork TeamPg-33

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Contents

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InfoThe Aircraft

737 Next Generationhe 737 family has been in production since the 1960s and is the

most successful commercial aeroplane to date in terms of sales, selling over 7000 units. Although there are plenty of classic variants in circulation, today you’re more likely to see a 737 Next Generation flying

overhead.

The 737NG includes the -600, -700, -800 and -900 variants, all of which have

different flight dynamics but share a very similar flight deck. All of these variants have been faithfully reproduced by PMDG, right down to the location of screws. During groundwork and flightwork we’ll be focusing on the 737-800.

Did you know that the 737 series is so popular across the globe that one takes off every 5.3 seconds?

The aircraft has around 367,000

parts and 36.6 miles of wire!

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InfoThe Training

Our Philosophyur philosophy at Angle of Attack regarding commercial jets is to

produce accurate video training to allow you to

avoid reading the confusing FCOM.

Even if you have read the FCOM our videos will still augment your knowledge of the aircraft and teach you to fly it like a professional.

We don’t just offer the videos in this training package, but also provide you with illustrated handouts and transcripts to

help you learn these complex topics. These can easily be downloaded from each video’s webpage.

Additionally, we have an amazing community of like-minded virtual pilots, some of which are new to the aviation world, while others are aviation veterans. Please check out the forums for more information on getting involved within the AoA community.

GroundworkSafety

TVIEW

01Safety

Lightinghe 737NG plays host to an impressive collection of lights. Each type of light, whether located internally or externally, is designed for a specific task. The main

purposes of lighting on any aircraft is to improve your visibility and to improve other pilots’ awareness of your presence.

This lesson will discuss each type of light in detail: what they’re used for and why, when specifically to use them, how to control them and where they’re located on the aircraft. We also cover some of the technical specifications and limitations.

EXERCISE: After watching the lesson, write down each type of

aircraft light, what it represents and when to use it during a flight.

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TVIEW

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caution and warning system. Throughout the lesson you will be shown a number of other components in this system.

02Safety

Caution & Warninghis system is responsible for alerting pilots to existing

or potential issues with the aircraft. When you first enter the flight deck you may notice several amber lights illuminated - a message from the caution and warning system that the aircraft is not configured for flight.

Aircraft configuration warnings are only one aspect of the

QUESTION: In what situations would you expect to see a blue light?

QUESTION: Which six systems does the PSEU control?

GVIEW

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03Safety

Emergency Equipementenerally this necessary equipment is the last thing pilots want to

have to deploy, but sometimes a dire situation will arise and this equipment can be the life-saving solution. You’re going to learn about oxygen, lighting and emergency egress.

While none of the

equipment discussed in this lesson is actually simulated it’s still good knowledge to obtain.

EXERCISE: Perform the oxygen mask system check in the simulator.

QUESTION: What is located in the flight

deck to help pilots escape?

AVIEW

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04Safety

Fire Protectionnother system which

pilots hope they never have to use but

appreciate its availability is the fire protection system. Fire can get out of control very quickly, an incredibly dangerous concept in a narrow sealed tube full of fuel, flammable seats

and people. So it’s just as well that all commercial

aircraft have dedicated equipment to

prevent and extinguish

fires.

Engine fire is the first example of aircraft fire that comes to mind, however it’s not just the engines that are a fire threat - a few other areas of the aircraft are hazardous too.

EXERCISE: Set up a few fire failures in the simulator and practice the fire extinguishing

procedures.QUESTION: What happens when you pull an engine fire

handle out?

IVIEW

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05Safety

Ice & Rain Protectionce and Rain can become problematic to pilots if not either prevented or

dealt with quickly. Ice has the potential to change the shape of the wings thus disrupting airflow, reducing lift and increasing drag. Rain may reduce visibility during final approach and ground operations.

The 737 is supplemented with a variety of different systems which very efficiently solve the issues caused by precipitation. This lesson cites all the ice and rain protection provided by the 737.

QUESTION: Which system is used to prevent ice build-up on the wings, and which is used to remove ice from the wings?

WVIEW

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06Safety

GPWShen flying at cruising

altitude the ground is not a major cause for concern. However when you’re flying a difficult approach, surrounded by mountains at night in low visibility and becoming disorientated, the ground proximity warning system can be life-saving.

Even if it’s a clear day this system increases pilot awareness dramatically, and is also responsible for the altitude callouts on final approach.

EXERCISE: Practice using the terrain display and other functions of the GPWS in a mountainous airport, for example Mariscal Sucre International Airport in Quito, Ecuador (ICAO: SEQU).

QUESTION: What does a solid amber area on the terrain display mean?

IVIEW

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07Safety

TCASf you’re flying online or with AI traffic in the simulator then, like in the real world,

you’re not the only plane in the sky. The traffic collision avoidance system detects other aircraft around you and advises you on the best course of action to avoid a collision.

This system increases your awareness of other aircraft by displaying traffic on the navigation display, but will also audibly and visually alert you if the potential for collision arises.

QUESTION: What oral alert is associated with a filled amber circle on the navigation display?

QUESTION: What should you do if you hear the “monitor vertical speed” advisory?

GroundworkEngines & APU

EVIEW

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08Engines & APU

Enginesngines are the heart of any aeroplane and the 737NG is no exception.

Powered by the two sturdy CFM56 type 7B engines, these not only allow the aircraft to be able to stay airborne but also generate both electrical and pneumatic power.

This lesson will take a look at how the 737NG’s engine components work together efficiently and how you as the pilot control them.

EXERCISE: Start up the engines in the simulator and practice good instrument cross-checking to ensure a safe start is achieved.

QUESTION: What occurs between the engine oil and fuel, and why?

IVIEW

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09Engines & APU

Auxilary Power Unitt wouldn’t make any sense to have the engines constantly burning

expensive fuel on the ground, so the 737 has a smaller and cost efficient engine at the back called the auxiliary power unit. This is an alternate source for electrical and pneumatic power.

Unless ground power and air are available the 737 wouldn’t be able to start up without the APU, furthermore battery power provides limited systems in the flight deck and only for a limited time. This lesson will

explain the duties of this hidden third engine.

EXERCISE: Start up and shutdown the APU in the simulator.

QUESTION: How long should the APU have run before you use it as a bleed air source?

GroundworkControls

HVIEW

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10Controls

Hydraulicsydraulics are used to move control surfaces and various other

components on the 737NG. Without hydraulics the pilots would have to use their own strength to move the control surfaces - not exactly a safe practice on a commercial jet.

Because the hydraulics system is so important it has several redundancies, including three separate hydraulic fluid systems. Check out this lesson to learn about the complicated hydraulic setup on the 737.

QUESTION: How does the power transfer unit work? Is it the same as in other aircraft, for example the Airbus A320?

EXERCISE: In the simulator move different control surfaces then refer to the hydraulic schematic on page 9-15 of the handout.

NVIEW

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11Controls

Primary Flight Controlsow that you have an understanding of the hydraulics system, you

will have an easier time learning about the flight controls. The primary flight controls are the means in which you can directly control the attitude of the aircraft.

During this lesson you will learn how each control surface is commanded from the flight deck and how these commands are relayed to the actual control surface.

QUESTION: What are the primary flight controls?

QUESTION: How can you control the elevator trim?

SVIEW

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12Controls

Secondary Flight Controlsecondary flight controls

are used to augment the performance of the aircraft when necessary; they include flaps, slats and spoilers.

Approach and landing are

both scenarios

where you would use secondary flight controls to alter the wings’ capabilities.

Because the secondary flight controls are only meant for certain phases of flight, there are protection mechanisms in place to prevent the pilots from damaging the aircraft structure should they exceed the operational threshold.

QUESTION: Exceeding what airspeed causes flaps to retract from 30 to 25?

EXERCISE: Use the simulator to fly around with different flap settings to see how the aircraft performance is affected.

LVIEW

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13Controls

Landing Gear & Brakesanding gear, as the name suggests, is required to perform

a safe landing. The wheels are fitted with brakes which, when used in conjunction with reverse thrust and ground spoilers, provide rapid deceleration during rollout.

The landing gear is also used for

ground movement; the nose gear is capable of turning to provide adequate steering. Additionally the aircraft is

fitted with a parking brake to stop the aircraft from moving whilst it’s stationary.

QUESTION: If autobrakes are set to 3, what is the deceleration rate in ft/s2?

EXERCISE: Taxi around an airport using brakes and nose wheel steering correctly.

GroundworkAir

BVIEW

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14Air

Bleed Airleed air is very hot compressed pressurized air taken

from the engines and directed to systems that require pneumatic power. You have learnt about some of these systems already, so learning about the bleed air system may create some links in your mind.

This lesson will cover the entire bleed air system, from the various sources available to the distribution and application of it.

QUESTION: From which stages of the engines’ high pressure compressors is bleed air extracted?

QUESTION: What is the pneumatic manifold?

AVIEW

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15Air

Air Conditioningir conditioning is used to

control environmental conditions aboard

the 737, not just for people but also for electrical equipment. At high altitudes fresh cool air requires a complicated process to generate: for that reason only the flight deck is fed 100% fresh air. The cabin uses a mixture of fresh and recirculated air.

This lesson will teach you about the process which the aircraft goes through to control the onboard atmosphere and the components involved with it. It might not work how you think it does!

QUESTION: What exactly is trim air and why is it necessary?

QUESTION: Why is cabin air recirculated?

WVIEW

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16Air

Pressurizatione as humans

need the air to be filled with a certain amount

of oxygen in order to survive. As you will see we can breathe comfortably up to a certain altitude, but the 737’s cruising window of 30-40 thousand feet is not survivable.

Luckily the 737’s cabin is pressurized to a much lower altitude. This lesson will go over some background knowledge and provide an in-depth review of the system itself.

QUESTION: What is rapid decompression?

QUESTION: What is hypoxia?

GroundworkFuel

FVIEW

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17Fuel

Fuel Systemuel is the limited resource that keeps the show running. Without

it the engines would starve, causing the 737 to slowly glide back down to the ground. The 737 has tanks to store fuel, and a means to get the fuel from the tanks to the engines.

Obviously the fuel system is vital, so the engineers built in system redundancy to mitigate the effects of failures. This lesson will teach you the ins and outs of the fuel system.

QUESTION: What is the total capacity of the 737’s fuel tanks?

QUESTION: Why is it important to fill the wing tanks before the centre tank?

GroundworkElectrical

TVIEW

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18Electrical

Electrical Systemhe electrical system is responsible for the distribution of

battery and engine generated electrical power to the array of important components on the 737 that require it. This is another system which has built-in redundancy due to its importance.

This lesson will describe sources and distribution throughout the electrical system, which is a very complex topic and this lesson only scratches the surface.

QUESTION: What does the hot battery bus do?

EXERCISE: Switch off the current power source to see an example of the hot battery bus working.

GroundworkAutoflight

350HDG

MVIEW

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19Autoflight

Autoflight Systemodern airliners have

the ability to fly themselves if

they’re given the correct information. This system not

only relieves the workload of pilots and allows them to focus on other tasks, but also flies more accurately and economically.

It should be stressed that the autoflight system does not replace

the pilot, but is merely a tool used to increase efficiency, awareness and safety. The pilot should always be the one making the final decision.

QUESTION: What is the inertial reference system?

EXERCISE: Whilst airborne, hand control over to the autopilot and use the modes available on the MCP.

TVIEW

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20Autoflight

FMS

he flight manage-ment system is closely related to the autoflight system, because it dictates the LNAV and VNAV path which the autoflight modes of the same name use. The FMS also offers the pilots a host of other flight information, like estimated time of arrival or remaining fuel on board at a waypoint.

The FMS is programmed via the Control Display Unit (CDU) and can be a fairly daunting topic if you haven’t used one before. During this video we break it down and make it easier to process.

QUESTION: What do the line select keys do?

EXERCISE: Explore the FMS via the CDU in the simulator.

TVIEW

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21Autoflight

Instrumentshe 737NG possesses the same instruments as

a general aviation aircraft, but

they’re not typically displayed in the traditional way. Instead most of the instruments are on the primary flight display, while access to the less essential ones can be found via the navigation display, engine display or systems display.

This lesson will discuss all available flight instruments outside of a practical environment, in a more technical manor. During flightwork these instruments will be used extensively.

QUESTION: What do the display electronic units do?

QUESTION: What modes are available on the navigation display and what do they do?

O ur team has grown a lot during the development of

the 737 project. Here (in no particular order) is a list of the people who have been involved:

Chris Palmer (01/11 - end)Duties: CEO / Owner, Project Planning, FSX Video Footage, Scripts (2)Location: Alaska, USA.

Nick Collet (01/11 - 03/12)Duties: Project Planning, Scripts (8), Storyboards, FSX Footage, Voice OverLocation: London, UK.

Roshan Bhojwani (02/12 - end)Duties: Scripts (10)Location: London, UK AND Santiago, Chile.

Charlie Reed (05/11 - end)Duties: Scripts (1)Location: Farnham, UK.

James Crowther (12/11 - end)Duties: Storyboards, HandoutsLocation: Birmingham, UK.

Henry Wallace (01/11 - end)Duties: Project Planning, IllustrationsLocation: Ontario, Canada.

Jonathan Hanst (03-12 - end)Duties: Voice OverLocation: Colorado, USA.

Kevin Baker (08/11 - end)Duties: Audio EditingLocation: Michigan, USA.

Robert Hoisan (01/12 - end)Duties: Video EditingLocation: Bucharest, Romania.

Dan Edgley (02/12 - end)Duties: Project ManagmentLocation: Michigan, USA.

Thomas Crowell (09/11 - end)Duties: Customer SupportLocation: Georgia, USA

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InfoAbout us

The Groundwork Team