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Talking airplane 
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Contents
How the PIC Deals with ATC
; Pilot Departure Operations; ...Tower Departure; ...Pilot Arrival Operations;... Tower Arrival; Standard Terms for 'Straight in' Arrivals'; ' ; Standard Terms for "Base' ArrivalsStandard Terms for Downwind ArrivalsClass D ATC Provides no Traffic Separation; ...Entering Class D Airspace; ...Crossing Class D Airspace; ...Radar Communication; ...ATC Radar Acknowledgment; ...FSS Procedures; ...FSS Problems; ...FSS Communications; ...Flight Watch; ...Uncontrolled Airport; Two different kinds of Unicom; ...Uncontrolled Airport Arrival; ...Common Mistakes; ...Aircraft to Aircraft; ...Lost Communications; ...Talking a flight; ...Declaring an Emergency; ...Terms Used in Radio Communication; What You Say Is What You Get; …Pilot/Controller Negotiations; …Radio Advice to Pilots and Author; …Dirty Words; …The Good Words; ...You Can’t Think and Fly Safely without the Words; ...Using ATC Facilities Revisited; ...

Talking Airplane

Radio use has become a critical limitation in aviation. Pilots need many additional skills before they can be efficient and effective on the radio. A pilot needs to know where he is, how to identify where he is and how to say what he knows. Often it is not the number of aircraft involved that causes radio congestion so much as the verbiage used by pilot who do not know how to say what they should say.

Aircraft communications is much like telegraph where unnecessary words are eliminated along with many prepositions and punctuation so long as meaning is clear. This is often very difficult for both ends of the language spectrum. My most difficult communications problem was with a radio-talk personality who could not talk without punctuation and emphasis. The speech pattern required in aviation is unlike that of any other language. The sequence of the information is constant in pattern, vocabulary specific without a pause if possible. Many words have new or special meanings and usage and many others are never used but always understood to exist. Even common numbers have unique pronunciations and ways of being said.

Examples:

tree, fife, niner, one-one thousand, 2400 as twenty-four hundred vs two thousand four hundred, .

over, miles, feet, the letters of the alphabet, cleared, clearance, hold short, movement area, go-around

flare, French names for aircraft parts, things named after inventors by the dozen, hundreds of letter combinations used instead of the words,

Talking airplane begins with the call-up usually to an ATC facility or a local airport facility and local traffic. In all cases you name who or what you are calling, your identification of aircraft type and alphanumeric call. Now the changes in format begin. To tower facilities you immediately give

your location, your request or intentions and wait. To radar facilities you say, "over" and wait. To a Flight Service Station you identify the frequency you are using and wait. To a Flight Watch, you name your nearest VOR and wait.

The reasons for these differences are specific to the service offered and the system itself. Airport facilities have a nearly universal frequency and services relating to fuel. 122.95 is the frequency and

the name of the organization is the call up. This frequency at a given airport may be shared between a number of companies. When your call on 122.95 is answered you give your request or question in

conversational terms. When requesting fuel it is wise to make several requests to get the best price.

Tower operations
A tower has three basic operations, the tower (known as local) talks to and clears all flying aircraft involved in departures and arrivals on an active runway. Ground controls aircraft on the ground that are not on an active runway. The third station is called Flight Data/Clearance Delivery. This person makes the ATIS, gets clearance requests from pilot and relays them to ATC facilities and

gets the approved clearance back from ATC to give to the pilot. During an eight-hour shift these position rotate from person to person. Training also is ongoing with new trainees, senior specialists and tower supervisor. The tower chief is administrative leader. It is pretty easy to judge the tower chief’s abilities by the number of personnel changes during his tenure. I believe that administration is the FAA’s weakest link.

On an open towered airport, once you have started your engine you have the option to immediately get the ATIS and contact ground with your call-up. It is common procedure to do this but since you are initially clear of any taxiway and in a non-movement area you are allowed some leeway. This means you can move from your parking space and even hangar row before communicating. A ground ‘clearance’ does not include the word "cleared" in most cases. The only instance you will hear "cleared" from ground is when you have been told to stop first.

Your taxi instructions will give you the runway and the route to take to get there. If you are unfamiliar, ask for progressive taxi instructions. Be careful they may forget you. Getting lost on the ground at complex airports is common. When in doubt, stop and tell them that you have a problem. I once did this at a Mexican border airport and they sent a truck out to guide me at 4 a.m. In heavy ground fog having someone to follow is a good idea. When you have completed your run-up advise ground and they will refer you to tower or a particular airport may want you to go to tower this when ready.

Every airport and tower chief may have slightly different procedures. Larger airports may require that you contact clearance delivery to get your transponder squawk specific to your selected direction as well as your departure route and next contact frequency after takeoff. Sometimes this is done by ground. At an unfamiliar airport it is always a good idea to talk to ‘locals’ if you suspect problem procedures ahead. Having taken off from a taxiway, from the wrong end of a runway, without a clearance and without a radio as a flight of two and some others that I can’t remember. I am certain that I will not live long enough to make all the possible mistakes but I’m still working on it. Always readback all taxi instructions while using an airport diagram if possible.

You are not through flying when you are rolling out on a runway. You are required to clear the runway as you choose or as you are told by the tower and cross the hold bars on a taxiway. You never change frequency from tower until you are fully across the hold bars. Should you be told to exit on an intersecting runway, do so and get clear of that runway as directed before stopping.

Your instructions may have too many variations to cover here but stop and if tower has not told you to go to ground it may be best to wait and ask for the frequency change. There a many situations where changing frequency on your own may be the wrong thing to do. When in doubt, ask.

Your call-up to ground is quite variable depending on how much help you need or expect. Get your directions, read them back and follow them. You are not supposed to know everything about a strange airport. In my past experience the best pilots are first to ask for and get help from ATC.

Radar Operations
You will have radar coverage at lower altitudes in only half of the U.S. One thing you learn on long cross-countries is how to find radar frequencies. Altitude is your friend when it comes to radar coverage. Get too low or far from a facility you are more likely to get a ‘kiss-off’ than a hand-off.

If your charts and guides do not have the frequency you need, knowing where and how to get a frequency is a required skill. Consider monitoring a local CTAF and ask a local what frequency to use. Call a tower and they will know the frequency you need so long as you are able to give your location. Pre-planning for your needs on the ground before departing is the sure cure. Any frequency of ATC that you can contact will (should) give you the proper frequency.

The initial call-up to the first radar facility of your flight is the simplest. Name of facility, your identification and "over". Wait, there are numerous duties a specialist may be engaged in that will prevent an immediate reply. Once they acknowledge you, identify your self again, where you are, your altitude, destination, route and intentions. Using this information you will be assigned a transponder squawk code. Write it down, say it back and put it in but only after putting the transponder to ‘standby’ first. Put it in, turn it to ‘Alt’ and ‘ident’ only if told to.

Flight Service Station Operations
Not too many years ago flight service stations were a numerous as were VORs spaced every direction nearly every forty miles. Teletype was the communication system and even the blind were working the system.. Technology has changed everything but the old dog fights on against centralization and privatization.

The radio call to the FSS is different in that you must identify the frequency you are listening on. The specialist on the FSS radio has as many as twelve different frequencies that can flash lights to him

when a frequency is used. He can only respond to one at a time so it is not unusual wait or be told to stand-by for your turn.. A frequency may be located at the FSS, an RCO (remote communications outlet), by way of a duplex system where you talk on 122.1 to a phone line that goes to the FSS and the specialist talks back to you through a VOR frequency. The last requires that you turn up your VOR volume.

The FSS is primarily a weather information system for use as a preflight planning aid. When talking by phone to an FSS specialist you are given a choice of briefings. The "Outlook" is what you ask for if your flight is a day or two away. The "Abbreviated" briefing is by request when you do not want the "Standard Briefing" The Standard Briefing as does the "Abbreviated" Briefing has a fixed format which can take as long as 10 to 15 minutes with extraneous information from far away. For most situations getting the outlook and then the abbreviated for the immediate flight. All of this process is on the way to be privatized and even replaced by in-cockpit weather displays.

Additionally, piggy-backed is the flight planning system based on the weather and emergency services. Private systems can now provide weather and flight plans to be emailed into the FSS system. Pilots are free to use either system. The DUAT(S) system uses reams of printout paper that may or may not be in plain language. It is difficult to ask questions of a piece of paper so my preference is to have a voice to voice conversation with a specialist.

Once a flight plan is filed by phone or by one of the two DUAT or DUATS system it waits to be activated by radio once the aircraft is airborne at a specific time usually stated as the number of minutes after the present hour. On the hour flights must state the hour local or zulu.

Once en route the flight plan can be extended if the estimated time (of) arrival (ETA) is going to be over a half-hour late. Along the flight position reports can be of great benefit since each position reported reduces the possible search area length. Positions are usually done to any FSS in radio range. Recently, a pilot and I who were going to open and close at the OAK FSS were told to give our position reports to Flight Watch. This was most unusual but worked very well since our flight began and ended with the same FSS.

Failure to close a flight plan filed activates a search program that consists of a radio search, ground search and satellite search. All ATC facilities are contacted, local police search possible airports as well as emergency locator transmissions (ELT) directional finding. System was required by congress long before it was perfected and to this day 97% of ELT transmissions are non-accidentally sent.

Satellite searches by aircraft can be by using aural signal strength or direction finding equipment. The Russians also have ELT detection that has historically been superior to that of the U.S. When an aircraft goes down within range and altitude of ATC radar the tape or digital records of the flight can be replayed and the accident location vicinity determined.

Flight Watch Operations
Flight Watch began in the 1970s at Oakland FSS. Technically the Flight Watch is supposed to be used only for weather communications be it requests for destination weather or giving a pilot report (PIREP) of existing weather. One of the weakest aspects of the entire ATC system is the failure of pilots to give PIREPS either to the FSS or to Flight Watch. A weather related PIREP is the best and most accurate accounting of weather as it IS. available.

The Flight Watch specialist sits within ten feet of the FSS radio communications specialist. The Flight Watch specialist has only one frequency that is good for most any aircraft over 5000 feet. There are for unknown reasons a number of ‘dead’ areas. A Flight Watch specialist has up to six or more remote communications outlets (RCO) spaced to give the radio coverage required for his area which may be quite large. Oakland’ covers from Bakersfield to Reno, and up to the Oregon border.

The flight watch specialist in addition has another frequency that is used by high altitude aircraft. The specialist at Oakland can use 135.7 when giving weather data to en route high flyers. The low-level flyers might use it if the low level 122.0 does not work for their situation. Every pilot should find this high altitude frequency for his area as an alternate to 122.0.

The radio call procedure to Flight Watch is again different from all of the other facilities. In the initial call-up you include as your position report the name or call letters of the nearest VOR. With this information the specialist will know which one of his several remote communications outlet to activate for his transmissions. Your nearest VOR call adds to the meaning of the flashing light on his panel.

Flight Watch is one of the most valuable and underutilized of ATC facilities simply because it is a neglected part of the flight training program. 122.0 is my favored monitoring frequency on my cross- country trips. Use of it keeps you up to date as to what pilots are facing along your flight route.

How the PIC deals with ATC
If the PIC knows and does as the FARs require there will be little need for ATC to step in and save the situation. MSAW (Minimum Safe Altitude Warning) is a low altitude warning system that exists at many ATC radar sites. Even so MSAW will work only if properly calibrated to the latest altitudes. The competent PIC, who is flying as he should, will never need an MSAW save.

Every PIC on an instrument approach should brief every approach so as to be familiar with the headings, altitudes and procedures need to get on the runway. Knowing when and how to get chart data takes practice. The latest Jeppeson charts are greatly improved to make getting pertinent information available. Do not depart until you are prepared.

Read and study the latest changes in the AIM and FARs. Changes take place every week and most of them will not apply to your flying. Still, you must read them all to catch those that do affect you. A PIC makes a point on having all available information. A PIC will remain current and proficient. A PIC will confirm every clearance and instruction with a read back even while performing the instruction.

A PIC will query ATC to confirm any unusual or seemingly inappropriate instruction. Recently, a student and I were given a vector by ATC in error. We acknowledged the vector at the same time ATC was admitting the error so neither of us heard the other. Had we not immediately asked the correct question about the vector and been advised by ATC that the previous vector had been cancelled we would have flown completely away from the published hold.

Pilot Departure Operations:
I have found that it is always a good idea, before you get into the airplane to point the direction you expect to fly.  The tower airport departure is a multi step procedure. First you get the ATIS and talk to clearance delivery if radar is involved. This will involve a transponder squawk, departure route, approach frequency and a read back. Plan your call-up to ground just as you would to tower. If you are uncertain or become uncertain don't hesitate to advise ATC and get assistance as you taxi. ATC can see the airport much better from the tower than you can from the ground. You should have an airport diagram available to study before you even get into the aircraft and review it again from the ATIS information.  On completion of your runup you will contact the local control (tower).  Now is the time to compare your taxiing instructions to the airport diagram and to high-light your expected route.  

You have looked in the direction you expect to depart before getting into the aircraft. You have noted the wind direction and set a heading bug on the wind direction so as to help you keep in mind the yoke position for the wind direction.  Always taxi as though the wind were strong enough to flip over the aircraft.  This will prepare you for the day when the wind is that strong.  On getting the ATIS you have planned your runway request for the most efficient departure. If you do not get the most efficient departure runway then you must plan your flight departure to establish the easiest interception of the planned route.

All too few pilots request the 270 departure that crosses them over the airport on a course that corresponds to the line drawn on the sectional. Why begin a flight two miles off course if you don't need to? To help ATC you have named a specific destination rather than a general direction or departure. This provides safer traffic avoidance. A good departure call would be:
"Podunk tower Cessna 1234X student pilot ready (runway number) (right 270 on course Xandu) (have any reported traffic)" 

ATC is required to 'point out' any known traffic that may affect your arrival or departure. You should acknowledge that you are looking and when seen you are expected to report 'traffic in sight'. Any time you report having reported traffic you make a friend of ATC since you then assume traffic avoidance responsibility. If after thirty seconds or so you have no visual contact be sure to advise ATC by saying, "Negative traffic.".

Tower Departure
Good operational procedures for initial tower call up suggest:
1. Select correct frequency
2. Practice the radio call for smoothness, accuracy, and completeness
3. Check for frequency congestion
4. Give full aircraft identification (+ student pilot if appropriate)
5. Give position and runway (Say, "In sequence" if you expect to follow other aircraft.)
6. Give departure request, direction or destination

With proper radio planning it is easy to go in any direction. A standard departure need not be requested but it is best to include such intent in your call up. Request must be made for straight-out, right/left crosswind, right/left downwind, right/left 270 crossing field 500' above pattern, direct VOR, on course to (destination).

Examples:
"Concord Tower Cessna 6185K ready 32R right standard departure"
"Napa Tower Cessna 6185K ready 18L request straight out"
"Livermore Tower Cessna 6185K ready 25L request right crosswind departure"
"Oakland Tower Cessna 6185K ready 27R request downwind departure"
"Concord Tower Cessna 6185K ready l9L request left 270 departure on course Napa"
"Napa Tower Cessna 6185K ready 24 direct to VOR"

While all of the above procedures are correct, I would again suggest a more appropriate call would be to request an 'on course' to you planned destination. This serves as a mini-flight plan on their tape recording and is a more accurate description of your planned route in terms of traffic advisories.  This is a good practice on non-tower departures as well.

The aircraft is cleared for takeoff. Prior to taking the runway the plane is turned so that both the final and base can be easily viewed from the cockpit. The clearance is just ATC's way of saying go ahead but if anything goes wrong it is your fault. The basic flight rule of VFR flying is, "See and be seen". During the departure, flight checkpoints and any related radio communications should be identified as well as their relationship to your departure from the airport.

Since more and more airports are building parallel runways the pilot should make a practice of making a 10 degree turn away from the adjoining runway to assure no conflict with departing aircraft on the other runway. If in your opinion, traffic conditions permit, and you have some need such as opening a flight plan do not hesitate to request a frequency change even though you may still be within the Class D footprint. The tower may or may not accede to your request.

Pilot Arrival Operations
If you are a passive pilot who lets ATC make all your arrival decisions you can just follow orders. This works best if you are quite familiar with the airport and its procedures. At unfamiliar fields you need to work out an arrival with ATC. The easiest, but less efficient way is to request to overfly the field and let them work you into the pattern. Passive radio operations usually require multiple transmissions involving questions and answers. One incompetent pilot with poor radios can tie up the system.  I have consistently found that the aircraft using the best radio procedures gets the best handling from ATC.

Every light aircraft pilot should be wearing a headset. He should know that microphones are noise canceling. The closer to the mouth the mike the less extraneous noise will intrude. As a pilot you will speak at a measured pace without punctuation. Make no pauses for periods, commas, or thinking. As a solo student you always let ATC know that you are a student as part of your full aircraft identification so that they can keep an eye on you. ATC communications are practically the same in similar situations. With experience you can recognize the 'canned' aspects and include them in your call-up. The more assertive pilot will take charge of the situation as suggested below. Do all your planning and thinking before you key the mike.

Several planning steps should precede the call-up to a tower-controlled airport. You should get the ATIS well away from the airport. This means you will know the direction of the preferred runway. You will know if a substantial crosswind is involved. You will listen and orient other traffic with reference to your arrival. You will plan your arrival so as to make your initial call-up at a selected reference point and altitude. Reference points are best when they are specific identifiable spot locations. Altitudes below 3000 feet AGL are safest when not at even thousands or five hundreds.

As a student you would be well advised to write your expected arrival radio call out without any shortcuts. Have it so you can read it off. After doing this a few times the writing will no longer be required. Where multiple runways exist some variations are to be expected. With the planning taken care of, you take a deep breath and practice getting everything out in one smoothly paced flow. While you are practicing you will be listening to the radio for ATC references to both inbound and outbound traffic.
Ready begin:
"Podunk tower (Cessna 1234X)(reference point) (at altitude)  (arrival path) (will report) (with ATIS)
(looking for traffic)".
You win if the tower says, "34X approved as requested."

Properly presented and arranged radio work by the pilot helps the controller sort out the factors of aircraft type, position altitude, intentions, and expected report. Making it easy for ATC lets them make it easy for you.

Tower Arrival
Towers are now acquiring BRITE monitors that give the controllers a radar screen picture of their area. The pilot has no way of knowing if this exists without a tower visit. There are different types of BRITE with differing capabilities. By letters of agreement (LOA) the tower may have been given, by the terminal facility, a very specific area and transponder codes for use in that area. BRITE (A radar screen) is used to determine position, provide advisories, suggest headings, (not a vector) and to provide information. The fact that radar is becoming increasingly available makes many arrivals more controlled and seemingly easier. Do not rely on a radar environment to protect you from other aircraft. Just be aware that proper radio procedures are expected in the radar environment. Also, should a suggested vector, heading, or heading fail to avoid traffic or weather you as a VFR pilot bear the primary responsibility. Under the present FARs anything bad that happens under VFR is not necessarily the fault of ATC.  BRITE now exists at CCR, LVK and APC.  It has existed at Hayward for years.

Always get the ATIS; communicate from a known (pre-planned) checkpoint 10 to 20 miles out. If you are unfamiliar, so advise ATC. If another aircraft is arriving so as to conflict relative to your position don't hesitate to give a progressive call as to your position and altitude. Awareness of the relationship between aircraft, their reporting points and your position/route is an important element in flying safety. For this reason report and confess if you are in an unfamiliar situation. ATC and other pilots can then be made aware of a potential surprise. Much better aware and watching than SURPRISED.

Standard terms for 'straight in' arrivals:
"34X 3-4 mile final" May include such terms as "approaching, passed VOR 20 seconds ago, etc. with altitude.
"34X two mile final" This is a required call and if not given by ATC as part of your clearance, give it anyway.
"34X Quarter mile final, low for 32 right"
"34X short final, high for 32 left"

Standard terms for "base' arrivals:
"34X two mile base" Again, this is a required call if not given by ATC in your clearance, give it anyway.
"34X one mile base, high"
"34X close in base"
"34X wide base"

Standard Terms for Downwind Arrivals:
(A left downwind to a left runway or a right downwind to a right runway never need be requested just say that you will report.)
"34X right downwind, high"
"34X wide left downwind"
"34X extended downwind, call my base"
"34X Abeam numbers, request short approach"

Before and after your initial clearance the tower may communicate with another aircraft. Always listen and mentally calculate position/altitude information that may affect your safety. The tower may issue to you a traffic advisory and may ask your position. It is wise to keep a running reference as to your location referenced to known checkpoints. i.e.

"34X Willow Pass thirty seconds ago two thousand looking for traffic"
"34X coming up on the BART yards at one-thousand five hundred have traffic"

If the tower fails to give you an advisory, go ahead and give your own advisory as above for the other pilot's benefit.

"34X Abeam numbers, request short approach".

As with Ground, acknowledge any tower clearance or instruction with the word HOLD in it since it confirms your understanding that at some point you are to STOP.
Tower: 34X taxi closer and hold short 19L...
Response: 34X understand closer and hold short

Tower: 34X taxi into position and hold...
Response: 34X position and hold

Acknowledge any traffic information
Tower: 34X # 2 behind Cessna on base...
Response: 34X looking
When you see traffic...
34X have traffic
When you don't see traffic...
34X negative traffic

The only clearance that need not be acknowledged is for take off, however, it is not wrong to acknowledge it if it can be done without causing delay in moving the aircraft.

--If the controller is obviously busy don't bother with making requests...do that later. If the controller does not give you time to acknowledge...don't.

--If you are given a command - EXECUTE and then use the radio

--If at any point you do not understand use "34X say again" or "34X say again everything after..."

Class D ATC Provides No Traffic Separation unless BRITE Equipped
ATC is required to provide aircraft separation only for the length and width of the runways for arriving and departing aircraft. Category I aircraft must have 3000 feet separation on the runway. The landing clearance is issued in anticipation that the required distance will exist on arrival. As ground control, ATC is required to provide separation only sufficient to prevent accidents. At night only one aircraft is allowed on the runway at a time. A departing aircraft is allowed to be over the runway at the prescribed distance. The entire airspace of Class Delta is the responsibility of the see and be seen pilot. Even though communication is required the responsibility of ATC does not include separation.

The rule(s) for intersecting runways require that only one runway will own the intersection at time. This means one aircraft owns the runway up to the intersection at a time. Once past the intersection its 'ownership' can pass to the other runway. The LAHSO can selectively limit the use of an intersection.

The few additional circumstances where ATC is required to provide separation or at least a notice of separation is for wake turbulence, restricted altitudes for opposite direction traffic and IFR separation for the entire Class Delta Airspace when below VFR minimums. Only one IFR aircraft is allowed into the Class Delta Airspace, when that airspace is below VFR minimums, at a time unless the controller can see and accept separation responsibility OR one of the pilots have a visual of the other and agrees to maintain visual separation. I have flown into the latter situation several times. I am above the airport and have visual with a departing IFR aircraft. I have been cleared into the airspace and to land as long as I have visual with the departing aircraft. It works.

Entering Class D Airspace
Suggestions by an ATC tower to answer questions and reduce problems. Two-way communications must be established prior to entry and must be maintained in Class D airspace. Pilots should contact the tower with position, altitude, destination, and any requests.
1. Listen before you transmit. Know what you want to say before you key up.
2. Acknowledge instruction.
3. Advise tower as soon as possible if you request pattern work.
4. Request preferred runway on initial call. It's not guaranteed, but they try.
5. Readback runway assignments. This is now a national requirement, not just "roger" or two clicks of the mike button.
6. Read back runway hold short instructions. ATC is required to obtain from the pilot a read back of all runway hold short instructions.
7. When ready for departure, say runway and departure request. This saves you and ATC extra transmissions that add up when it's busy.

Crossing Class D Airspace
"Napa tower Cessna 1234X Crockett at l900 request flight through your Class D airspace surface area en route Santa Rosa will report clear"
Tower will normally approve the transit, give you the current altimeter setting and remind you to report clear.

Radar Communication
The callup to every radar facility is the same.

Initial Call
Travis approach, NorCal departure, Oakland Center
Name of facility, full aircraft identification (+ "Student pilot ") over

Travis Approach Cessna 6185K (student pilot) over

The reasons for this brevity is because the radar controller has a multiplicity of tasks. In addition to your frequency he may have a military one. He has a phone line for contact with controllers of adjacent areas. He often records data and writes notes. In low traffic periods one controller may have two areas and two frequencies. Under certain workload/weather conditions VFR advisories may not be possible. When this condition exists you will be so advised. A visit to a radar facility will help you be more understanding as to why the controller does not answer immediately. (9/11 has changed such visiting opportunities)

A more distant initial callup procedure allows the controller to select when to contact you as his workload permits. Wait at least 30 seconds before calling again. The more efficiently you communicate the more likely it is that you will be accommodated since good communications reduce the work load.

Your first flight into complex airspace can be made much easier by planning the flight precisely for the radio procedures you can expect. This means that you want to have a frequency list with variables. During certain days and times ATC facilities combine frequencies because of reduced traffic. It is usually difficult to tell just when this occurs so it is important that you familiarize your self with the possibilities. A phone call to the facility is a good starting point.  A visit is even better.

Your initial callup consists of whom you are talking to, who you are and "Over". Do not try to squeeze all the Class Delta information into an initial radar callup. The radar specialist has a far more complex communication system than the 'Local' tower controller does. Let the specialist get back to you when he/she is ready. This factor means that you must make your initial call well away from the need for a clearance or transponder code. Allow yourself time according to aircraft speed.

When the specialist gets back to you, it is time for you to have prepared all the necessary information. Aircraft type and /code, location, altitude, destination w/ATIS, and any special intentions or requests. Always write down the transponder code assigned, read it back and then on 'standby' put it into the transponder. Acknowledge any heading/altitude assignments and comply as sequenced. If you are uncertain on any item of a clearance have that part of the sequence repeated by saying, "Say again …".

ATC Radar Acknowledgment:
Make NO response if told to standby. When the controller is able you will be told to go ahead. However, you may be occasionally 'forgotten".

"Cessna 85K go ahead with your request"

When the controller acknowledges your existence give the particulars of your flight and aircraft.
Full call sign
Type of aircraft
Present position, present altitude and final altitude.
(Altitude given is checked with radar encoder readout)
Destination
En route altitude
Request

You give all the data but ADD aircraft type present altitude and final altitude. The controller will ask for anything you leave out. The ATC specialist adds the type information to the radar data block. The present altitude information is used to check the accuracy of your transponder encoder. Once you are established at an altitude do NOT leave that altitude without first advising ATC. Your transponder code assignment will indicate IFR/VFR and destination.

The response would be similar to:
Cessna 150 6185K Student Pilot two north Concord VOR out of two thousand two hundred for five thousand five hundred (Hemispheric rule altitude is determined by magnetic course.) en route Chico

ATC will assign a squawk and confirm your Mode C operation by saying,

"85K squawk 5234", say altitude.

The importance of correct, concise, and accurate communications when dealing with a radar facility is essential. You are required to fly assigned headings and altitudes. If you wish to change heading or altitude advise ATC. You do not need to ask for the change of altitude, but you are requifred to advise them of your intentions. If there is a traffic conflict ATC may provide an alternative. Always write down squawk and frequencies. Always repeat back squawk, frequencies, heading, and directions as much as practical. If you need something repeated, say so. If you cannot visually locate conflicting traffic, do not hesitate to indicate that you will accept (want) a vector for traffic avoidance. When given a handoff to another sector you just have to tell the controller your aircraft numbers and altitude.

"Norcal Approach Cessna 6185K level at 6,500"

Again, if no response, wait 30 seconds and call up again. When work load permits they will respond. There is a more complete radar study included with Cross-Country Procedures.

Do not believe that being on radar relieves you from 'see and avoid' responsibility.
As a VFR flight you are relatively low on the ATC totem pole. When ATC radar advises you of nearby traffic you should acknowledge the 'point out with.
"85K have traffic"

Do this only if you are sure of the traffic direction, distance and aircraft type. If you are uncertain or have failed to see any aircraft of the type indicated you say,

"85K negative traffic"
If after thirty seconds to a minute you still have not identified the traffic and you feel that a hazard may be involved, you should request vectors for avoidance by saying,
"85K will accept vectors"

The controller may indicate that traffic is no longer a factor or may give your a vector by saying,
"85k turn to 030"

Your response will be the direction of the turn and the heading given so as to establish the certainty of your instructions.
"85k left/right to 030"

When you are clear of the traffic ATC will instruct you to resume your own navigation.

If your transponder is not making a reply or is giving the wrong code ATC will request that you recycle. This means to turn it off then on and roll through the numbers again. This often is sufficient to fix the problem. If some aspect of transponder operation is unsatisfactory ATC can usually work with a primary signal. Under the escape clause "unless otherwise authorized or directed by ATC" you can be given a waiver. The willingness to ask for help when you need it from ATC is more important than whether your transponder is working. Not only can ATC give you vectors they can give you 'no gyro' aid that will get you out of IFR conditions into VFR.

Squawk is assigned according to the National Beacon Code Allocation Plan. Centers are assigned different for different flight operations. There is a series for selected departures, another series for flights within a Center's airspace; and a different series for departures that will cross center boundaries. Squawks can be copied only by Centers far apart.

A given ATC facility will be given code sequence for different uses such as VFR, IFR or tower en-route. Within a given operation, they assign them in sequential order and then start over again. No two aircraft can fly with the same code inside the airspace of a specific facility. Pilots are occasionally asked to change their code if you are traveling a long distance. Certain codes are used to show your destination to each facility as you pass through.

FSS Procedures
The FSS may have up to 12 radios operating from one switch panel. It is necessary for the pilot to know the differing dedicated frequencies and how to obtain them. The emergency 121.5 and FSS universal 122.2 frequencies do not usually appear on charts or other sources. You, the pilot, are expected to know that these are common to Flight Service Stations. If a frequency for an FSS is followed by an R, it means that the FSS can only receive; if a frequency is followed by a T, it means that the FSS can only transmit on that frequency. Since some of the frequencies may be far beyond the line of sight requirement it is important to be careful in making your frequency selection.

Failure to mention the frequency you are listening on may require an additional callup. You always save time in communications by doing it right the first time. Your initial communication should include the words, ....listening on (Frequency). You can improve your FSS communications comfort level by making PIREPS when making local flights. The FSS can offer complete weather service, frequencies, airport information, navigational assistance and emergency assistance. Except for the callup, other communications can be conversational.

Some FSS operations are now only part-time. Do not try to stretch radio range. Use nearest available frequency. Know how to select the appropriate FSS frequency, how to use it correctly and when to use it. Some FSS operation are only part-time. The FAA is in the process of making most FSS operations via remote facilities. Oakland and Rancho will service most of Northern California as the smaller stations are phased out. Reference the AIM Chapter 4-92, 5-81, 70-50/58.

An FSS briefer must master six different phases of operations.
1. Preflight
2. Standard briefing, abbreviated briefings, outlook briefings
3. Weather observation
4. Flight data
...............The getting flight plans, messages, search and rescue,
5. In flight
................All air to ground communications, inflight flight plans, position reports, weather requests, lake and mountain service, ................flight watch and airport advisory service (AAS)
6. Airport advisories

FSS Problems
Key question: "If you were a pilot would you go?
--Pilots who do not understand terminology
--Pilots who cannot listen and ask questions related to information already given.
--Pilots who take offense at required "VFR not recommended" when weather is below a specific point.
--Pilots who cut the briefing short. Allowed but presents problems for briefer who is required to follow a specific format.
--Pilots who call flight watch for the wrong reason such as giving a position report.

FSS Communications
The callup to an FSS uses the format.
"Name of FSS radio, aircraft identification listening on (frequency)"
Listen for frequency congestion and check frequency. The initial FSS contact is always the same....

34X Callup: "Oakland Radio Cessna 1234X listening 122.5. Since the operator may be on any one of a number of radios at a different frequency you must wait before trying again.

FSS: "Cessna 1234X Oakland Radio go ahead"

Flight Watch
Sitting very near the FSS radio specialists is the Flight Watch radio specialist. His duties extend from 6 a.m. to 10 p.m. local times. This is a nationwide weather information service operating on 122.0. The first Flight Watch station was activated at Oakland about twenty years ago. Since this is the only frequency he may have up to eight remote locations. Oakland has one at Reno, Red Bluff, Oakland, Big Sur, Sacramento, Fresno, and Ferndale near Eureka. There are three HiWAS frequencies for the airlines. Any aircraft over 5000' should be able to contact Flight Watch.

The essential is that the pilot give the name of the nearest VOR. Response may not be immediate because the specialist may be 'working' another aircraft hundreds of miles away from your location. This is an excellent frequency to monitor when flying cross-country but contact should be related to weather. You may be able to give another pilot valuable information about your route as well getting real time information for your destination.

34X: "Oakland Flight Watch Cessna 1234X (NEAREST VOR) over"

Always include in initial call up your location related to the nearest V0R. This allows the operator to select the best remote transceiver for your location. This is a weather service and, except in emergencies, should be limited to weather. Requests and information have a regular format but conversational exchanges are acceptable.

EFAWS: "Cessna 1234X Oakland Flight Watch go ahead."

34X: "Cessna 34X VFR CCR-RNO have hit stronger than forecast head winds near Blue Canyon. Estimate winds to be 340 at 18-kts at 9500. Light turbulence high cirrus 40-mile visibility. Do you have additional information also current surface winds at Reno?

High Altitude Flight Watch Frequencies
OAK 35.7
LAX 135.9
SLC 133.02
SEA 133.92

Uncontrolled Airport
Regulatory provisions relating to traffic patterns are found in Parts 91, 93 and 97 of the FARs. ACs 90-42 and 90-66A are advisory for safety and efficiency. See-and-avoid requirement fully applies. All available information from AFD (Airport/Facilities Directory) AIM and NOTAMs is required by FAR. Use of Visual indicators (segmented circle, windsock) must be used. Statistically a midair is most likely to occur in the pattern of an uncontrolled airport.

The one place you can reduce the cost of being wrong on the radio at uncontrolled airports by always assuming the worst possible situation at an uncontrolled airport. Make it a point to report your positions and intentions several times on an IFR uncontrolled airport arrival. Even an IFR approach that makes a straight-in to an uncontrolled airport may increase the safety factor by doing a circle with a standard pattern entry.

The straight-in approach to an uncontrolled airport is not, of itself, inherently dangerous. Straight in approaches, while not prohibited, must not be disruptive to normal pattern operations. Possible straight in approaches (as with instrument approaches) greatly increase see-and-be seen requirements. The straight-in eliminates the need to overfly and make a 45 entry. AC 90-66A advocates the 45 entry but indicates that the straight in, IFR or VFR, should not require maneuvers that disrupt other traffic. FAR ,91.127(b) Says that all turns shall be to the left unless otherwise depicted. A straight-in requires no turns. NTSB Administrative Law Judges have found the straight-in a violation of FAR 91.113.

Two Different Kinds of Unicom.
1.) Every tower airport has a UNICOM on frequency 122.95. The callup gives, "Airport name UNICOM, aircraft identification and request".

Due to the personnel or physical constraints several calls may be required to establish contact. Commonly used to order fuel, services, or transportation. 122.95 is the universal nationwide UNICOM frequency for TOWER fields. Such an airport UNICOM is used for ordering fuel, taxis, making phone calls or personal requests. It is frequently advantageous to contact the UNICOM a few miles out so that transportation will be there when you land. Some fields may have additional frequencies but 122.95 is standard. Only at the very largest airports will this frequency operate on a 24-hour basis.

2.) Many uncontrolled airports may offer UNICOM service on the CTAF frequency given on the sectional. This means that there may be someone on the field to respond to a radio call during normal working hours.

The callup is:
"Name of field UNICOM, aircraft identification, location, altitude, request traffic advisories( or other request) and name of the field."  Giving your altitude and whether level, climbing or descending is one of the most important radio situational warnings you can give.

If there is a UNICOM response it may be limited to suggesting a runway and traffic direction. (The Good Samaritan situation has created liability they may not wish to assume with additional advice) If there is not UNICOM response all further transmissions should be addressed to "traffic".  Very often you can get airport pattern and activity information by monitoring the frequency for a few minutes before making your call-up.  With this information, you may be able to eliminate the over-fly and make a more economic arrival to the 45 entry.

Non-radio-equipped aircraft are expected to determine pattern in use. One in five General Aviation aircraft do not have radios. Radio use is not required but good sense dictates monitoring and use. One of the problems at uncontrolled airports is radio complacency. You begin to believe that if no one is on the radio that no one is there. Don't you believe it.

Some of the CTAF frequencies are quite congested on weekends. It is important that the NAME of the place/airport be the first and last word of any CTAF communication. This alerts pilots in your area and allows others to discount your presence. This change is of relatively recent origin, about 10 years. You will still hear many pilots failing to use this procedure because they were not initially taught that way. Relearning is, perhaps, the most difficult aspect of flying. Relearning is also one of the most resisted phases of instruction. However, what was good enough forty years ago or even five years ago is not good enough today.

Always include the runway number you plan to use or are using in every call.. This provides an additional alert if someone missed the place/airport name as well as possible winds/ runways at nearby airports. Do not totally rely on such runway calls for what you should use. Since the use of the CTAF frequency nor the 45-degree entry is not REQUIRED you must use see-and- be-seen vigilance in all directions. If you have reason to believe density altitude over 1000' above AGL exists it would be helpful to include your computation in your communications with other aircraft.

The eyes and ears of the ATC controller and perhaps RADAR augment situational awareness at a tower-controlled airport. At the uncontrolled airport it is only the pilot(s) who are responsible. The see and be seen limits of situational awareness must be supplemented with what you hear and orient over the radio. The radio, properly used, tells everyone else where to look. Other pilots must use what you say on the radio to both locate and anticipate your actions. There is a vital supplement to visual contact in the radio communications. The radio is the only way you can express intent and allow any other pilot to anticipate what you are going to do. Situational awareness relies on the pilots both speaking, listening, responding and looking

Recently I took a new student into an uncontrolled airport for the first time.  The student had been fully briefed on what to say and when to say it.  Everything went well until we finished  our descending course reversal for the inbound 45.  Within two minutes two other aircraft reported on the same 45 we were on.    Our heading indicator confirmed that we were inbound on the 45.  Scanning found an aircraft making more what looked like a base entry and the other aircraft was making about a 15-degree angle into the downwind.  I never cease to be surprised by pilots who do not know or have never been taught how to use the heading indicator and heading bug to make a 45-entry.

Total awareness requires both the eyes and ears. You tell other aircraft where you are, your altitude, and your intentions. This can be give in specific words or by implication. "34X right downwind for 25" tells other pilots that you are at pattern altitude, flying to the left side and parallel to runway 25 and will soon be turning base. Other pilots may (should) be listening and interpreting your call to their situation. An aircraft with pertinent information or in the immediate vicinity may well respond.

Communication only occurs when there is both a speaker and a listener. This announcing process of giving position, altitude and intentions is the only way to can fill in the situational awareness of other pilots. If you fail to begin and end each announcement with the airport name you just confuse the situation for all concerned on the frequency. "What airport?, is a common call when airport identification is left out.

Unicom frequencies now in use (1997) are 122.7, 122.725, 122.8, 122.975, 123.0, 123.05, 123.075
122.75 is air-to-air and private airport operations
122.9 is multicom at unattended and uncontrolled airports
122.925 is an environmental protection frequency.
122.85 air search and rescue

Uncontrolled Airport Arrival
1. PLANNING
Runways
Reporting points
45 degree arrivals only (liability protection)
Pattern altitude/direction
Frequency

2. ARRIVAL
15 mile callup:
1. Podunk UNICOM Cessna 1234X KEY Intersection at 2000 request traffic advisories Podunk (if no answer...
Podunk traffic Cessna 1234X KEY Intersection at 2000 planning to overfly at 2300 prior to landing Podunk

2. Podunk traffic Cessna 1234X over the field at 2300 descending planning 45 entry landing (runway) right/left traffic Podunk

DON'T MISREAD WIND SOCK, TETRAHEDRON, OR SEGMENTED CIRCLE!!!! Misreading is easy to do.

Depart over the field on a reciprocal 45-degree to the 45-degree entry. Lose half of altitude to pattern altitude. Execute a left/right course reversal while descending to pattern altitude on 45-degree entry. You should be at pattern altitude before reaching the pattern. This greatly improves your see/be seen opportunities. Arriving slightly high is better with high-wing and slightly low with low-wing aircraft for better visibility. Watch the ground for shadows.

Look for additional ways to determine runway in use, such as arriving or departing aircraft, smoke/dust/waves. Nearby airports are good indicators. Try to plan the most efficient arrival conducive to safety. Avoid the pattern altitude until you are in it.

DON'T FLY INTO THE PATTERN ALTITUDE IN THE BLIND!!!!!

RADIO:
Podunk traffic Cessna 34X on 45 for (runway number) Podunk
Podunk traffic Cessna 34X right/left downwind for (runway number) Podunk
Podunk traffic Cessna 34X right/left base for (runway number) Podunk
Podunk traffic Cessna 34X final for (runway number) Podunk

PRIORITIES:
1. Fly the plane
2. Maintain proper altitudes and headings
3. Keep eyes outside cockpit and watch for traffic
4. Communicate
122.9 Traffic only advisories at airports without frequency on sectional
123.6 Uncontrolled field with FSS for arrival and departure only (Obsolesent)

Common mistakes:
1. Not calling up soon enough to get advisory
2. Not observing traffic pattern/windsock direction
3. Turning downwind too close to runway (At small strange airports)
4. Becoming distracted and not attending to airspeed and pattern orientation
5 Trying to hit the end of the runway
6. Delaying addition of power if low
7. Delaying go around if a poor approach/flare
8. Not clearing runway immediately

DEPARTURE:
1. Full 360 degree clearing turn on ground prior departure
2. Advise traffic of departure and direction

The addition of the name of the airport at the end of each radio call is by an AD (Advisory Circular) June of 1985. When an omission occurs you can be certain that the pilot has avoided additional training since 1985.

Non-UNICOM Uncontrolled Airports:
All call-ups are made to the airport "Location name, traffic, aircraft identification, position, altitude, intentions and location name" on 122.9. Any responses to your "blind" communications would be from other aircraft.

Aircraft to Aircraft:
All call-ups must, according to FCC, include full identification of both aircraft. 122.75 is the aircraft to aircraft frequency. It is best to use this frequency by prior arrangement with another plane.

Most airports have several special situations which require special flight procedures. The best way to get this information is by visiting the tower. Make a phone call to the airport and have a list of prepared questions. I would suggest arranging a discussion and analysis for any arrival and departure at neighboring airports with a pilot familiar with the location. In my instructional area there are airports in differing quadrants that vary from having an ARSA underlying a TCA to uncontrolled.

Lost Communications
Being unable to communicate to ATC is not a VFR emergency. There are standard arrival procedures to use and ways to let ATC know that you have a problem. The most common causes of lost communications are pilot error in use of his equipment. Low time pilots are most apt to experience lost communications. Under high workload situations a pilot is likely to not to catch a lost communications problem. Lost communications are usually discovered when trying to communicate. Experience has indicated the following order of difficulty. The average time before problem recognition is nearly ten minutes.

--Misuse of audio panel causes over 50% of problems
--Using wrong radio
--Volume too low
--Incorrect frequency (Failure of pilot to write down frequency.)
--Forgot to change frequency
--Using wrong frequency usually from failure to write down frequency.
--Two simultaneous transmissions resulting in frequency whistle
--Stuck microphone switch (Causes 60% of blocked frequencies.)
--Electrical failure
--Given incorrect frequency by ATC
--ATC radio problem
--Asleep (64% of radio incidents occur in cruise flight.)

The use of a radio log sheet which is completed prior to each flight is a good practice. When you have only one radio you have a limited capability and a self-limiting problem. Always keep the audio panel on speaker or phone. Monitor a frequency until you are ready to communicate.

When using multiple radios, develop a technique of always making your initial contact on the #2 radio and rolling that frequency to the #1 as soon as contact has been established. If you have dual flip-flops keep your communications in the #1 and ATIS frequencies in the #2. This removes the audio panel as a problem. Develop a sequence of movements for changing a frequency that will include the setting of the next expected frequency. The next frequency will often be given to a preceding aircraft, listen up and put it into your radio. This will unload one facet of the next ATC directive requiring multiple actions. Take all the help you can get.

When radios get fancy some basic skills fall. Under single radio operations you kept a written radio frequency log. With flip-flops you may tend to neglect your log. No problem until your frequency display LED fades out or loses a leg or two. Now you get to practice locating a missing frequency by bird-dogging through other ATC facilities. Towers can give your many of the radar frequencies in their area.

Talking a Flight
1. Study area maps and become familiar with all checkpoints.
2. Select call-up checkpoints and altitude for both directions.
3. Plan most economical departure/arrival traffic permitting.
4. Make a frequency list for both directions.
5. Before you get into the plane point the way you want to go.
6. Verbalize what you will say to the tower from all departure runways.
7. Say 'STUDENT PILOT' when using full identification if applicable.
8. If radios do not appear to work, suspect yourself first.
9. Acknowledge all communications except, "Clear for takeoff".
10. Face approaching traffic while holding short.
11. Clear (turn toward base & final) the runway before takeoff.
12. Refuse "Cleared for immediate" as a student pilot.
13. Know your Class D airspace footprint line for frequency change.
14. Start listening to arrival ATIS as far away as possible.
15. Listen to other planes as they arrive/depart so as to be situational aware of traffic hazards.
16. Verbalize what you will say to the tower for all arrival runways with requested approach and reporting point.
17. Initiate descent to allow smooth entry into pattern.
18. Have the pattern altitude MSL written down on sectional.
19. Communicate well outside the tower controlled airspace.
20. If you start getting behind, so to slow flight.
21. Keep track of inbound/outbound checkpoints so that at any time you can give the tower your position and altitude.
22. If traffic conflicts seem possible give position and altitude without being asked.
23. If in doubt request to overfly above pattern altitude for orientation.
24. If you become confused--communicate.
25. Acknowledge all traffic calls (looking-have-negative)
26. Advise ATC early if having any kind of difficulty.
27. Obey an ATC command and then acknowledge.
28. Fly with the microphone in your right hand
29. Get a good headset and mike switch as soon as possible.
30. In the pattern, verbalize your clearing and actions in flying to keep normal approach.
31. Respond to the tower only if control of plane is assured.
32. Go to slow flight if you are #3 or more in the pattern.
33. Accept short approach only if certain of your capability.
34. Do not force clearing the runway; be smooth and gentle.
35. Put microphone in left hand while on the ground.
36. Taxi well clear of runway for following traffic.
37. Cross the hold bars before changing frequency.
38. Face possible approaching traffic if crossing a runway.
39. Request taxi assistance if you are the least uncertain as to how to proceed.

Declaring an Emergency
There are no requirements for the declaration of an emergency. If you are having difficulty and have doubts as to your ability to guarantee a safe outcome, declare an emergency. Use Pan Pan if there is no immediate danger, if you have any doubts as to the urgency use Mayday. You are more likely to be facing FAA paperwork for not declaring an emergency than you are for declaring one.

Use of the word 'immediate' is a heads-up warning to ATC that you are having difficulty not yet at the 'emergency' level.  As though you are requesting a vector to the nearest airport because of uncertain or low fuel situation.

Take the easiest/safest way out. Contact ATC and get all the help you can. You can expect an FAA interview concerning your judgment/decision to declare an emergency. FAA will not second-guess what happened in the cockpit. If the pilot is reasonable in saving life and property an FAR deviation will usually be considered justified.

ATC, "Say intentions".
Pilot, "Say suggestions."

Terms Used in Aircraft Communications:
SAY AGAIN (May be used by ATC or pilot.)

APPROVED AS REQUESTED..The golden Ring award for pilot communications.

REQUEST CLOSED TRAFFIC WITH THE OPTION

SEQUENCE (Advise me of my order of landing or departure)

CLEARANCE (Advise me of whether I have been cleared or my order of landing)

SAY TRAFFIC (Tell me of aircraft in my vicinity.)
By ATC
EXTEND DOWNWIND Usually required when traffic on final needs to clear before you turn base. Pilot might suggest 360 away from airport or 270 with entry on base.
CLEARED FOR THE OPTION This request by pilot gives landing choice of go-around, touch-and-go, stop and go, or full stop landing.
MAKE SHORT APPROACH  Pilot or ATC deniable request to get to runway as quickly as possible due to traffic requirements or pilot practice.

CLEARED FOR LOW APPROACH ATC clearance that allows flying low over runway.

GO AROUND
Pilot action or ATC directive to immediately abort landing and initiate climbing due to traffic considerations. One of the options for closed traffic with the option.

MAKE R/L THREE SIXTY Pilot or ATC request for full circle to acquire spacing in traffic pattern.

MAKE R/L TWO-SEVENTY AND RE-ENTER ON BASE Used by pilot or ATC to accomplish a 90-degree turn in one direction by turning 270° opposite direction for spacing or altitude purposes.

WIDEN TO FOLLOW Pilot or ATC request that aircraft be turned not to follow but to fly outside prior traffic to increase spacing.

HOLD SHORT ATC command that means to go to a certain position and stop. Must be acknowledged.

HOLD SHORT OF... Names point on airport where aircraft must be stopped. May be on the runway or on a taxiway

TAXI CLOSER AND HOLD SHORT.... ATC is effectively saying that you must be closer and ready to move the aircraft due to traffic.  May be used to allow following aircraft to pass by.

TAXI INTO POSITION ATC directive for you to get on the runway and be ready for takeoff.

REPORT...ATC request for you to say when you reach a pre-selected point around the airport or in the pattern.

IN SIGHT ...ATC statement that they have visual contact with your aircraft.

CAUTION WAKE TURBULENCE ATC warning of potential for wake turbulence that removes responsibility for what occurs from ATC. Advise ATC of what evasive action you plan to take. Wait, turn, climb, etc.

FOLLOW... ATC directive for you to locate and follow preceding traffic.

CLEARED FOR TAKEOFF ATC statement that you may depart but whatever happens as a result is your fault and responsibility.

CLEARED FOR TAKEOFF R/L TURN APPROVED ATC clearance that includes approval of previous departure request by pilot.

CLEARED FOR TAKEOFF...APPROVED  CLEARED FOR TAKEOFF ...APPROVED WITH REFERENCE TO ... ATC clearance that includes limited approval contingent on pilot locating and remaining clear of specified traffic.

CONTINUE STRAIGHT OUT UNTIL ADVISED... ATC restriction on takeoff climb that no turns are to be made until ATC authorizes
.
CONTINUE STRAIGHT OUT I WILL CALL YOUR....(same as above)

REPORT TWO MILE FINAL... ATC restriction on entry into Class Delta airspace that requires pilot to state position at a specific point of entry.

REPORT TWO MILE R/L BASE...(same as above)

REPORT DOWNWIND...(same as above)

EXPEDITE CROSSING... ATC demand that movement be made quickly.

TURN R/L NEXT EXIT TRAFFIC SHORT FINAL ...ATC request/demand that pilot get off the runway. May be refused but will probably require following aircraft to make go-around. Refuse if safety is compromised.

TURN R/L SECOND EXIT HOLD SHORT...ATC may have specific reason for you not to take first exit.

CONTACT GROUND ON...ATC may give directive while still on runway. Aircraft must cross hold-bars before changing frequencies.

EXPEDITE TO END TRAFFIC BEHIND ...ATC request that you move quickly because of following traffic. Do so only if safe
.
LONG LANDING APPROVED ...You are normally expected to touchdown on a runway within a 1000' of the approach end. If you wish to land further down the runway make the request and await approval. Responsibility for going off the end rests on the pilot.

CLEARED TO LAND HOLD SHORT OF.... Where simultaneous runways are in use, some clearances are approved only with ATC limitations.

REPORT REACHING... Due to other traffic or regulations, ATC may need to know when you reach a given point that may not be apparent to ATC
.
REPORT CLEAR...(same as above)

CALL MY TRAFFIC (Tell me of aircraft in my vicinity.)

CALL MY BASE (I am on downwind but need you to tell me when to turn base.)

CLEARED INTO THE CLASS C AIRSPACE AT... REPORT CLEAR...IS CLEARED OUT OF THE CLASS C SURFACE AREA TO THE (DIRECTION)...

MAINTAIN APPROPRIATE VFR ALTITUDE

MAINTAIN SVFR WHILE IN THE CCR CLASS D AIRSPACE AT OR BELOW (ALT) REPORT CLEAR OF CLASS D AIRSPACE SURFACE AREA OR VFR WHICHEVER OCCURS FIRST... IS CLEARED INTO THE CLASS D AIRSPACE FROM THE (DIRECTION) MAINTAIN SVFR WHILE IN THE AIRSPACE SURFACE AREA AT OR BELOW (ALT) REPORT ENTERING THE CLASS D AIRSPACE REPORT ...

NORDO Means NO RaDiO ATC term for aircraft without communications

PROGRESSIVE TAXI
Requested by pilot or offered by ATC when aircraft is unfamiliar with required taxi route. ATC will give directions and call all turns.

MAINTAIN RUNWAY HEADING Means to fly runway # heading

SAY HEADING
A polite ATC reminder that you apparently are not flying the direction you are supposed to. Check Compass/HI alignment.

STAND BY
This means that the listener should not respond but, rather, should wait for the speaker to continue at a later time.
SQUAWK STANDBY
Transponder request by ATC when your transponder may be giving an incorrect response.

WHEN ABLE
This is an ATC request or command for the pilot to perform something as conditions permit without regard for non-safety related requirements. sually used by ATC to get you out of the way of a faster traffic behind.

VERIFY or CONFIRM Check on previous information. Important that pilot always check on ATC to assure correct understanding of instructions.

What You Say Is What You Get
--Before using radio confirm radio selection, frequency and volume.  
--
Once set don't mess with volume. 
--Basic Radio consists of organizing thought by who, where, what and acknowledgements.
--Who is your aircraft identification
--Where is using a commonly known position referenced by distance and an altitude.
--What will include intentions, requests, and
--Acknowledgments include ATIS, traffic, restrictions, and requests.
--Once full identification has been given to a specific controller limit identification to last three digits.
--Any change in frequency, unless one controller is using dual frequencies, requires new full identification.
--Since you are familiar with your call sign slow it down for those who are not so familiar with it.
--Correct any identification errors made by ATC immediately by emphasizing the error made.
--On any airborne initial callup to a new controller you are required to give your altitude.
--Give altitude as level; …at___ and descending;…at ---and climbing;…leaving___climbing/descending___
.
--Avoid using the words "for" and "to" in any communication where they could be mistaken for 'four' or 'two'..

 --The two most common 'dirty words' in ATC opinion is beginning the call with "this is..." or inserting "..with you...".

--Never use the word feet, miles, or over (a place) since they are easily understood to exist.
--All altitudes are said in full as two-thousand four-hundred and never as twenty-four hundred.
--Whenever a heading change is given it is best to precede the new heading with the "left" or "right" direction.
--Getting the ATIS as soon as possible will cut down the communications required.
--Always acknowledge runway assignments in the air and on the ground.
--If you are a student pilot you should always follow your initial identification with "student pilot".
--If you are a stranger in the region, follow your initial call-up identification with 'UNfamiliar'.
--The way you phrase and say any special request, the more likely it is to be approved.
--When ATC asks you to "verify" it is asking you to confirm some bit of information.
--Once you have admitted to ATC that you have certain traffic you are responsible for keeping separation.  Sometimes 'don't see' the traffic if keeping it in sight is a problem.

Pilot/Controller Negotiations
--Dancers and choreographers
--Making organized imagination work.
--Three dimensional chess with aircraft sans blindfold
--Harmony between controller and an obedient pilot
--An advisory/request from ATC requires a pilot answer
--Pilot's option is always, "Unable" but expect ATC retaliation
--'Unable' is due to pilot or aircraft inability or lack of desire.
--Time is the currency of air traffic control.
--Only cooperation of pilots allow ATC to use time efficiently
--Poor planning on your part does not constitute an emergency on my part (On my fridg at home)
--Urgency or stress can appear in the voice of either pilot or controller. You hear and feel it.
--Priority treatment goes with pilots saying, "Low fuel state".
--Declaring an emergency sooner is better than later.
--Don't let ATC fly you into an emergency
--Highest level of priority is an emergency
--Best negotiating ploy is, "Last controller said you would…

Radio Advice to Pilots and Author 
Initial callup to uncontrolled airport . You have pilot give direction, distance and altitude from airport. In my experience at uncontrolled airports few local pilots think of their arrival in terms of direction and distance. The GPS is going to change that but will still leave an empty hole in situational awareness. The use of direction and distance is the last resort of the unprepared pilot.

My experience has been that any arrival location and distance is most accurately related to more pilots through reference to a local landmark. As I indicated to you on the phone never report at the landmark, rather one or two miles away including the direction. ..."Two east power plant at 2300 planning to overfly at 1800 prior to landing" Once over the airport give your intentions as to runway and pattern you expect to fly.  Call the 45 outbound, 45 inbound, downwind, base, and final.  In each case using name of airport first and last as well as runway.

Directional illusions exist everywhere but more so in California. Los Angeles is East of Reno. Any flight to the South takes you out to sea. Most pilots associate road direction with the road signs. Most California road signs indicating North or South are on roads going East or West.

Secondly, the initial call to an approach facility is more acceptable to the controller if it does not include anything more than the aircraft identification. i.e. "Travis approach Cessna 1234X over" (Note absence of punctuation.) This way the controller can come back when he is ready. Pilots should recognize this as a systemic problem and plan accordingly. Several minutes interval often occurs between this initial call and an ATC response.

These are not to say what you have as a format is wrong. There is really no right or wrong in aircraft communications but there are protocols of preferred ways to perform. There are commercial airline differences from general aviation in our program I see a reflection of the commercial airline ways of doing things. Nothing wrong in what you have done but not as good as it should (could) be. As you indicated there seems to be regional and local differences between pilots and ATC. I usually fly in a very limited area but I have made it a practice to take every student and IFR pilot into the local FAA facilities until it became impossible after 9-11. This means that I have spent hundreds of hours in the towers, FSS, TRACONS and Centers over thirty years and have tried to remain current with accepted procedures.

I say these things with the kindest of intentions with no desire to disparage what you have done. I will cease any analysis if you wish at this point. However, I would much rather further review of your programs only with the intention of expanding the depth of your presentation.
Gene

Dear Gene,
Thank you for the quick review of my website. Your comments are most welcome. When you develop a commercial product, even as small as mine, you don't take critiques personally. While our avocation is logically based, there are some differences which relate to circumstances and regional "traditional" protocols.

Here are some explanatory information related to your comments about the sample templates provided on the website:

1. Reporting your direction and distance rather than your position relative to a known landmark is useful, but I see a limitation. While announcing your position relative to a known landmark near your chosen airport may be useful for the "local" pilots in the pattern, a pilot who is approaching the field for the first time may not know the local landmarks. Stating your position using mileage and cardinal directions would be more helpful to the "new guy." In addition, what about foreign pilots. Any reference to a landmark may not be translated correctly by the foreign pilot. For example, let's say you have a East-West "ditch" 4 miles due North of an airport serving as a landmark. A "ditch" may conjure up a different image to the foreign pilot, or for that matter,a different image from me!

2. I noted that you assume pilots do a fly over of the field before entering the pattern. Lots of our uncontrolled fields are used by sky divers. Consequently, few pilots do fly-overs before entry in Florida. In all fairness, I have noted your way of entry used in North Carolina and South Carolina.

3. Your concern about the initial call information being too much to give, is note worthy. In communication workshops I have given, I tell users that if the field is busy only give your call sign. If the field is not busy give it all. Most CFI's I have spoken to think that approach is reasonable.
Hugh,

Just a quick note about a fairly recent change in communications. Was wondering if you had picked up on it.  In IFR pilot call-ups or responses to altitude changes there has been historically confusion in the words four and for or two and to. Since the beginning of IFR the pilot would say something akin to, "39K out of three thousand for four thousand". The new recommendation is to insert the word 'climbing' or 'descending' as appropriate and avoiding the prepositions.

"39 Kilo out of three thousand climbing four thousand" This change is most difficult for those of us who have years of habitual use of 'for four' or 'to two' . The change is a bit clumsy at first but do-able. Also, I find it difficult to type communications without punctuation but do so to emphasize the most desirable speech pattern.

It may of be some interest to you that my communications program is so distinctive that my students are easily identified by ATC. We play a mind game with the controller trying to get the, "Approved as requested," response from ATC.

Example:
Concord tower Cessna 651DE one west of Pittsburg power plant with Echo request right base for 32L will report two mile base.

Another thing just popped into my mind. Are you familiar with the various levels of communication assertiveness? It should be somewhere on my site. A pilot who lets ATC make all the decisions for arrivals or departures is functioning at the lowest level of PIC assertiveness. This is the 'passive' level and is not going to develop the PIC personality required for flying. The second level, used in the Concord callup above, is the suggestive level. I teach suggestive radio communications.

Dirty Words on the Radio
--"With you" …

--"This is"…

--For, to where they can be interpreted as four, two.
--Over--as "over" a reference point. In an airplane you're supposed to be over something.

--Repeated use of ATC title after initial contact.
--Use of identification shortcuts as in Triple one, double golf

--Twenty-three hundred for two thousand three hundred when giving altitude.

--"Feet" when giving altitude as "Two-thousand one hundred feet"

--"miles" when giving distance from reference point other than calling two-mile final or base.

--Requesting a downwind arrival rather than stating fact

--Giving partial arrival call-up rather than including anticipated ATC instruction. ATC will correct any incorrect assumption you make.

--On departure request using the words "on course" to/toward specific location as being more accurate

--Using reference point for call-up rather than generalized direction such as northeast, etc.

--Recognizing that you are talking to other aircraft as well as ATC by giving altitudes every time.

The "Good" Words
--ATC, "Approved as requested."

--climbing/descending is 2002 change in wording requested by FAA.

You Can’t Think and Fly Safely without the Words
Flew with a student yesterday (8-29-04) while making an airport arrival. We were in conflict with another aircraft making the same call as we had made requesting the same arrival. Airport has BRITE radar so ATC requested for my student to say position. Knowing the position of one of the two 1200 transponder targets would give ATC required knowledge for sequencing. Fact is we were on a 45 entry and the other aircraft while calling a 45 was actually on a 30. The CCR BRITE in the first week of September will be certified so that aircraft may be asked to ‘ident’ to distinguish one 1200 squawk from another. For the past year two aircraft in conflict could not be easily identified other than by pilot position inquiry.

My student knew he was on the 45 but could not tell ATC where on the 45 he was by using a known identifiable reference point. I helped him. After we landed I pointed out to the student that you need to be able to help ATC and other aircraft in such a situation.

As a pilot you must develop an extensive vocabulary and knowledge of the area. Equally important is a

broad useable terminology which will be indicative of your location in the pattern, referenced to the airport and its tower. Words that come immediately to mind always stated with your altitude are, abeam, extended,
high, low, close, over, Your in flight vocabulary is your best security blanket.

A recent study indicates that your ability to know what to say depends on having the words to express your thoughts. In flying such a collection of words is essential to longevity. Those who try to fly and think without the words are fooling themselves. The GPS a handicap in the development of this required knowledge and skill.

Using ATC Facilities Revisited
Talking Airplane
Tower Operations
Radar Operations
Flight Service Station Operations
Flight Watch Operations

Talking Airplane
Radio use has become a critical limitation in aviation. Pilots need many additional skills before they can be efficient and effective on the radio. A pilot needs to know where he is, how to identify where he is and how to say what he knows. Often it is not the number of aircraft involved that causes radio congestion so much as the verbiage used by pilot who do not know how to say what they should say.

Aircraft communications is much like telegraph where unnecessary words are eliminated along with many prepositions and punctuation so long as meaning is clear. This is often very difficult for both ends of the language spectrum. My most difficult communications problem was with a radio-talk personality who could not talk without punctuation and emphasis. The speech pattern required in aviation is unlike that of any other language. The sequence of the information is constant in pattern, vocabulary specific without a pause if possible. Many words have new or special meanings and usage and many others are never used but always understood to exist. Even common numbers have unique pronunciations and ways of being said.
Examples:
tree, fife, niner, one-one thousand, 2400 as twenty-four hundred vs two thousand four hundred, .over, miles, feet, the letters of the alphabet, cleared, clearance, hold short, movement area, go-around, flare, French names for aircraft parts, things named after inventors by the dozen, hundreds of letter combinations used instead of the words,

Talking airplane begins with the call-up usually to an ATC facility or a local airport facility and local traffic. In all cases you name who or what you are calling, your identification of aircraft type and alphanumeric call. Now the changes in format begin. To tower facilities you immediately give your location, your request or intentions and wait. To radar facilities you say, "over" and wait. To a Flight Service Station you identify the frequency you are using and wait. To a Flight Watch, you name your nearest VOR and wait.

The reasons for these differences are specific to the service offered and the system itself. Airport facilities have a nearly universal frequency and services relating to fuel. 122.95 is the frequency and the name of the organization is the call up. This frequency at a given airport may be shared between a number of companies. When your call on 122.95 is answered you give your request or question in conversational terms. When requesting fuel it is wise to make several requests to get the best price.

Tower Operations
A tower has three basic operations, the tower (known as local) talks to and clears all flying aircraft involved in departures and arrivals on an active runway. Ground controls aircraft on the ground that are not on an active runway. The third station is called Flight Data/Clearance Delivery. This person makes the ATIS, gets clearance requests from pilot and relays them to ATC facilities and gets the approved clearance back from ATC to give to the pilot. During an eight-hour shift these position rotate from person to person. Training also is ongoing with new trainees, senior specialists and tower supervisor. The tower chief is administrative leader. It is pretty easy to judge the tower chief’s abilities by the number of personnel changes during his tenure. I believe that administration is the FAA’s weakest link.

On an open towered airport, once you have started your engine you have the option to immediately get the ATIS and contact ground with your call-up. It is common procedure to do this but since you are initially clear of any taxiway and in a non-movement area you are allowed some leeway. This means you can move from your parking space and even hangar row before communicating. A ground ‘clearance’ does not include the word "cleared" in most cases. The only instance you will hear "cleared" from ground is when you have been told to stop first.

Your taxi instructions will give you the runway and the route to take to get there. If you are unfamiliar, ask for progressive taxi instructions. Be careful they may forget you. Getting lost on the ground at complex airports is common. When in doubt, stop and tell them that you have a problem. I once did this at a Mexican border airport and they sent a truck out to guide me at 4 a.m. In heavy ground fog having someone to follow is a good idea. When you have completed your run-up advise ground and they will refer you to tower or a particular airport may want you to go to tower this when ready.

Every airport and tower chief may have slightly different procedures. Larger airports may require that you contact clearance delivery to get your transponder squawk specific to your selected direction as well as your departure route and next contact frequency after takeoff. Sometimes this is done by ground. At an unfamiliar airport it is always a good idea to talk to ‘locals’ if you suspect problem procedures ahead. Having taken off from a taxiway, from the wrong end of a runway, without a clearance and without a radio as a flight of two and some others that I can’t remember. I am certain that I will not live long enough to make all the possible mistakes but I’m still working on it. Always readback all taxi instructions while using an airport diagram if possible.

You are not through flying when you are rolling out on a runway. You are required to clear the runway as you choose or as you are told by the tower and cross the hold bars on a taxiway. You never change frequency from tower until you are fully across the hold bars. Should you be told to exit on an intersecting runway, do so and get clear of that runway as directed before stopping.

Your instructions may have too many variations to cover here but stop and if tower has not told you to go to ground it may be best to wait and ask for the frequency change. There a many situations where changing frequency on your own may be the wrong thing to do. When in doubt, ask.

Your call-up to ground is quite variable depending on how much help you need or expect. Get your directions, read them back and follow them. You are not supposed to know everything about a strange airport. In my past experience the best pilots are first to ask for and get help from ATC.

Radar Operations
You will have radar coverage at lower altitudes in only half of the U.S. One thing you learn on long cross-countries is how to find radar frequencies. Altitude is your friend when it comes to radar coverage. Get too low or far from a facility you are more likely to get a ‘kiss-off’ than a hand-off.

If your charts and guides do not have the frequency you need, knowing where and how to get a frequency is a required skill. Consider monitoring a local CTAF and ask a local what frequency to use. Call a tower and they will know the frequency you need so long as you are able to give your location. Pre-planning for your needs on the ground before departing is the sure cure. Any frequency of ATC that you can contact will (should) give you the proper frequency.

The initial call-up to the first radar facility of your flight is the simplest. Name of facility, your identification and "over". Wait, there are numerous duties a specialist may be engaged in that will prevent an immediate reply. Once they acknowledge you, identify yourself again, where you are, your altitude, destination, route and intentions. Using this information you will be assigned a transponder squawk code. Write it down, say it back and put it in but only after putting the transponder to ‘standby’ first. Put it in, turn it to ‘Alt’ and ‘ident’ only if told to.

Flight Service Station Operations
Not too many years ago flight service stations were a numerous as were VORs spaced every direction nearly every forty miles. Teletype was the communication system and even the blind were working the system.. Technology has changed everything but the old dog fights on against centralization and privatization.

The radio call to the FSS is different in that you must identify the frequency you are listening on. The specialist on the FSS radio has as many as twelve different frequencies that can flash lights to him when a frequency is used. He can only respond to one at a time so it is not unusual wait or be told to stand-by for your turn.. A frequency may be located at the FSS, an RCO (remote communications outlet), by way of a duplex system where you talk on 122.1 to a phone line that goes to the FSS and the specialist talks back to you through a VOR frequency. The last requires that you turn up your VOR volume.

The FSS is primarily a weather information system for use as a preflight planning aid. When talking by phone to an FSS specialist you are given a choice of briefings. The "Outlook" is what you ask for if your flight is a day or two away. The "Abbreviated" briefing is by request when you do not want the "Standard Briefing" The Standard Briefing as does the "Abbreviated" Briefing has a fixed format which can take as long as 10 to 15 minutes with extraneous information from far away. For most situations getting the outlook and then the abbreviated for the immediate flight. All of this process is on the way to be privatized and even replaced by in-cockpit weather displays

Additionally, piggy-backed is the flight planning system based on the weather and emergency services. Private systems can now provide weather and flight plans to be emailed into the FSS system. Pilots are free to use either system. The DUAT(S) system uses reams of printout paper that may or may not be in plain language. It is difficult to ask questions of a piece of paper so my preference is to have a voice to voice conversation with a specialist.

Once a flight plan is filed by phone or by one of the two DUAT or DUATS system it waits to be activated by radio once the aircraft is airborne at a specific time usually stated as the number of minutes after the present hour. On the hour flights must state the hour local or Zulu time. A filed flight plan is available for at least an hour after the selected time of departure. Even then it can be recalled from the computer.  If you can give the date and
time of a previously filed plan in the same aircraft the FSS specialist can retrieve the information and make everything go a bit quicker.

Once en route the flight plan can be extended if the estimated time (of) arrival (ETA) is going to be over a half-hour late. Along the flight position reports can be of great benefit since each position reported reduces the possible search area length. Positions are usually done to any FSS in radio range. Recently, a pilot and I who were going to open and close at the OAK FSS were told to give our position reports to Flight Watch. This was most unusual but worked very well since our flight began and ended with the same FSS.

Failure to close a flight plan filed activates a search program that consists of a radio search, ground search and satellite search. All ATC facilities are contacted, local police search possible airports as well as emergency locator transmissions (ELT) directional finding. System was required by congress long before it was perfected and to this day 97% of ELT transmissions are non-accidentally sent. 

Satellite searches by aircraft can be by using aural signal strength or direction finding equipment. The Russians also have ELT detection that has historically been superior to that of the U.S. When an aircraft goes down within range and altitude of ATC radar the tape or digital records of the flight can be replayed and the accident location vicinity determined.

Flight Watch Operations
Flight Watch began in the 1970s at Oakland FSS. Technically the Flight Watch is supposed to be used only for weather communications be it requests for destination weather or giving a pilot report (PIREP) of existing weather. One of the weakest aspects of the entire ATC system is the failure of

pilots to give PIREPS either to the FSS or to Flight Watch. A weather related PIREP is the best and most accurate accounting of weather as it IS. available.

The Flight Watch specialist sits within ten feet of the FSS radio communications specialist. The Flight Watch specialist has only one frequency that is good for most any aircraft over 5000 feet. There are for unknown reasons a number of ‘dead’ areas. A Flight Watch specialist has up to six or more remote communications outlets (RCO) spaced to give the radio coverage required for his area which may be quite large. Oakland’ covers from Bakersfield to Reno, and up to the Oregon border.

The flight watch specialist in addition has another frequency that is used by high altitude aircraft. The specialist at Oakland can use 135.7 when giving weather data to en route high flyers. The low-level flyers might use it if the low level 122.0 does not work for their situation. Every pilot should find this high altitude frequency for his area as an alternate to 122.0.

The radio call procedure to Flight Watch is again different from all of the other facilities. In the initial call-up you include as your position report the name or call letters of the nearest VOR. With this information the specialist will know which one of his several remote communications outlet to activate for his transmissions. Your nearest VOR call adds to the meaning of the flashing light on his panel.

Flight Watch is one of the most valuable and underutilized of ATC facilities simply because it is a neglected part of the flight training program. 122.0 is my favored monitoring frequency on my cross- country trips. Use of it keeps you up to date as to what pilots are facing along your flight route.

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Continued on 5.33 All About VFR Radio