Descent planning is a critical yet often overlooked aspect of managing your flight. And if not planned properly, a poorly executed descent can present challenges and unnecessary risks when transitioning to an approach or the traffic pattern. Pilots must consider a variety of factors including terrain, weather, airspace constraints, and aircraft performance, to ensure a smooth and safe descent.
A well-executed descent plan not only enhances safety but also improves passenger comfort and fuel efficiency. For example, descending too late can lead to steep approaches, excessive speed, strain on the aircraft, or even discomfort for the passengers. Conversely, descending too early can waste fuel and time and may result in a bumpy ride.
Let’s explore a number of strategies to plan your next arrival.
Use Your Existing GPS Navigator
Most modern GPS navigators include a vertical calculation and/or navigation function that will allow you to plan your descent with precision. As an example, the Garmin GTN series offers a vertical calculation (VCALC) function that includes the ability to set a desired rate of descent to calculate the appropriate point to begin your descent based on your aircraft’s current groundspeed.
You can further choose to arrive at a waypoint at a predetermined altitude or set a mileage offset to create a buffer or to allow for space to enter the traffic pattern.
To use the VCALC function, simply enter a target altitude (pattern altitude for example) and be sure the altitude type matches what you have intended (MSL vs. AGL). Then select a comfortable vertical descent rate (VS Profile), any mileage offset (perhaps three-four miles before the target altitude if you are entering the traffic pattern) and the target waypoint (arrival airport).
Finally, you can enable messages to alert you as to when to begin the descent. Consult the flight manual supplement or pilot’s guide for your GPS navigator for additional details on utilizing the vertical navigation functions.
Flight Planning Apps
Make use of the powererful features of your favorite flight planning app to make your descent planning easier. In ForeFlight, for example, the Basic Navlog includes waypoints for the top of climb (TOC) and top of descent (TOD). These waypoints are calculated automatically using the latest weather forecasts and selected aircraft performance profile.
You can view your TOD within on the Flights tab in the Navlog. In our example flight from the Clermont County Airport (I69) the Ohio State Airport (OSU) in a Cessna 182 Skylane at 7,500’, you can see that our TOD has been calculated at 35nm (13 minutes) from our destination airport.
You can also view your TOD from the flight plan profile view on the Maps tab. Long press in the profile view and then move the vertical slider to the left until it intersects with your cruise altitude of 7,500’. As you can see, this point is 45nm from our departure point which is 35nm from our destination as was calculated in the Navlog.
To quickly insert your TOD into your flight plan, go to the Edit view, select your destination waypoint, OSU, then Along-Track Offset. Enter 35 and the TOD waypoint of 35nm from our destination is now entered in your flight plan.
The Rule of Three
The “rule of three” involves calculating the altitude to lose in thousands of feet and multiplying it by three to determine the distance from the destination to begin your descent, essentially creating a 3-degree descent angle.
Multiply the altitude to lose (in thousands of feet, 6,600/1000 (6.6)) by three to find the distance from the destination to start your descent.
6.6 x 3 = 19.8nm
Determine the descent rate
As a rule of thumb, to determine the appropriate descent rate, divide your groundspeed (the anticipated groundspeed in your desent) by two and then multiply by 10.
In our example:
167kts / 2 = 83.5 x 10 = 835fpm
Use a Standard Descent Rate
Many pilots utilize a standard descent rate that is comfortable for their aircraft and passengers. Using our same example flight from I69 to OSU and a 500fpm descent rate:
Determine descent point in minutes from destination:
Divide the altitude to lose by the desired descent rate to calculate how many minutes from your destination you will need to initiate the descent.
6,600’ / 500fpm = 13.2 minutes from the destination.
Convert to mileage from destination if desired:
To convert 13.2 minutes into mileage from the airport, you will need to determine how many miles per minute you are traveling by dividing your groundspeed by 60.
167kts / 60 = 2.8 miles per minute
Traveling at 2.8 miles per minute, you will need to initiate a descent 37nm from the airport (2.8 mpm x 13.2 minutes).
Other factors to consider
Terrain and obstacle considerations, airspace constraints, and ATC limitations can all influence your descent planning. Passenger comfort can also come into play. If you are dealing with sensitive ears, you may wish to opt for a shallower descent rate; however, in the warmer months, the lower altitudes may be more turbulent and you may wish to delay your descent in favor of smoother and cooler air.
If you are approaching a non-towered airport, you may wish to reach pattern altitude several miles from the airport to position yourself onto an appropriate entry leg and get appropriately configured.
As you can see, there are multiple methods for determining an appropriate descent profile. The most important takeaway is to have a plan and stay ahead of the aircraft.
https://media.flighttrainingcentral.com/wp-content/uploads/2024/12/23142307/descent-planning.png10001250Eric Radtkehttps://media.flighttrainingcentral.com/wp-content/uploads/2022/01/05155154/FTC-logo-horizontal-fianl.pngEric Radtke2025-01-10 08:55:392025-01-08 11:18:54Descent Planning: Strategies for Safe and Smooth Arrivals
Advances in flight training start with your feedback. Redbird Flight recently launched its fifth annual State of Flight Training Survey to help the flight training community identify and analyze trends, priorities, strengths, and challenges to build a brighter future for aviation. The survey allows all stakeholders the opportunity to share their thoughts on the key opportunities and challenges facing flight training businesses and flight instructors. Flight training providers, flight instructors, designated pilot examiners, prospective student pilots, student pilots, and pilots are encouraged to respond.
Results will be released at Redbird Migration in early March 2025. Participants will have the option to receive the survey results directly and be eligible to win a $100 Sporty’s Gift Card.
https://media.flighttrainingcentral.com/wp-content/uploads/2025/01/09131049/Copy-of-flight-training-survey.png10001250Flight Training Central Staffhttps://media.flighttrainingcentral.com/wp-content/uploads/2022/01/05155154/FTC-logo-horizontal-fianl.pngFlight Training Central Staff2025-01-09 13:11:022025-01-09 13:12:24Share Your Thoughts on the State of Flight Training and Enter for a Chance to Win
During your preflight briefing, you observe that the air is clear and there are no storms in sight – does this mean you’re in store for a smooth, enjoyable flight? Possibly, but you should also consider another weather factor that can have a big impact on the comfort of the flight on VFR days: turbulence. This week’s tip discusses ways to avoid rough air and find a smoother ride on your next flight.
https://media.flighttrainingcentral.com/wp-content/uploads/2023/11/08101305/avoid-turbulence.jpg10001250Bret Koebbehttps://media.flighttrainingcentral.com/wp-content/uploads/2022/01/05155154/FTC-logo-horizontal-fianl.pngBret Koebbe2025-01-08 09:08:112025-01-08 10:14:43Video tip: How to avoid turbulence and find a smoother ride
As winter sets in, it’s more important than ever to understand how the cold weather will not only affect the aircraft performance but also your preflight and weather planning. Use this quiz to test your cold-weather flying knowledge.
In which environment is aircraft structural ice most likely to have the highest accumulation rate?
Correct!Wrong!
When is aircraft performance at its peak?
Correct!Wrong!
Which conditions result in the formation of frost?
Correct!Wrong!
Frequent inspections should be made of aircraft exhaust manifold-type heating systems to minimize the possibility of:
Correct!Wrong!
What type of weather is forecast for the area to the northeast of area D?
Correct!Wrong!
During preflight in cold weather, crankcase breather lines should receive special attention because they are susceptible to being clogged by:
Correct!Wrong!
An aircraft cabin should be preheated in cold weather operations to:
Correct!Wrong!
How will frost on the wings of an airplane affect takeoff performance?
Correct!Wrong!
If necessary to take off from a slushy runway, the freezing of landing gear mechanisms can be minimized by:
Correct!Wrong!
Carburetor ice is most likely to occur when temperatures are:
“LINE UP AND WAIT” is used to instruct a pilot to taxi onto the departure runway and line up and wait, but NOT depart. While it may seem straightforward on the surface, there are numerous examples in which the instructions were not followed creating a dangerous risk of collision. A variety of human factors can explain why a pilot may mistakenly initiate a takeoff in this situation. An awareness and understanding of these factors along with strategies to mitigate those risks, will help you avoid a costly error. Learn more in this From the Flight Deck video from the FAA.
https://media.flighttrainingcentral.com/wp-content/uploads/2024/12/18120410/flight-deck-line-up-and-wait.png10001250Flight Training Central Staffhttps://media.flighttrainingcentral.com/wp-content/uploads/2022/01/05155154/FTC-logo-horizontal-fianl.pngFlight Training Central Staff2025-01-03 08:55:212024-12-18 12:04:58From the Flight Deck Video Series: Line Up and Wait
This week we go flying to see what power-on stalls are all about. Some pilots are nervous about this maneuver, which can require a nose-high attitude. But with a good understanding of the aerodynamics and a preview from outside the airplane, you’ll have the confidence to perform these stalls smoothly – and hopefully avoid an inadvertent one on takeoff.
Descent Planning: Strategies for Safe and Smooth Arrivals
/in Tips and technique/by Eric RadtkeDescent planning is a critical yet often overlooked aspect of managing your flight. And if not planned properly, a poorly executed descent can present challenges and unnecessary risks when transitioning to an approach or the traffic pattern. Pilots must consider a variety of factors including terrain, weather, airspace constraints, and aircraft performance, to ensure a smooth and safe descent.
A well-executed descent plan not only enhances safety but also improves passenger comfort and fuel efficiency. For example, descending too late can lead to steep approaches, excessive speed, strain on the aircraft, or even discomfort for the passengers. Conversely, descending too early can waste fuel and time and may result in a bumpy ride.
Let’s explore a number of strategies to plan your next arrival.
Use Your Existing GPS Navigator
Most modern GPS navigators include a vertical calculation and/or navigation function that will allow you to plan your descent with precision. As an example, the Garmin GTN series offers a vertical calculation (VCALC) function that includes the ability to set a desired rate of descent to calculate the appropriate point to begin your descent based on your aircraft’s current groundspeed.
You can further choose to arrive at a waypoint at a predetermined altitude or set a mileage offset to create a buffer or to allow for space to enter the traffic pattern.
To use the VCALC function, simply enter a target altitude (pattern altitude for example) and be sure the altitude type matches what you have intended (MSL vs. AGL). Then select a comfortable vertical descent rate (VS Profile), any mileage offset (perhaps three-four miles before the target altitude if you are entering the traffic pattern) and the target waypoint (arrival airport).
Finally, you can enable messages to alert you as to when to begin the descent. Consult the flight manual supplement or pilot’s guide for your GPS navigator for additional details on utilizing the vertical navigation functions.
Flight Planning Apps
Make use of the powererful features of your favorite flight planning app to make your descent planning easier. In ForeFlight, for example, the Basic Navlog includes waypoints for the top of climb (TOC) and top of descent (TOD). These waypoints are calculated automatically using the latest weather forecasts and selected aircraft performance profile.
You can view your TOD within on the Flights tab in the Navlog. In our example flight from the Clermont County Airport (I69) the Ohio State Airport (OSU) in a Cessna 182 Skylane at 7,500’, you can see that our TOD has been calculated at 35nm (13 minutes) from our destination airport.
You can also view your TOD from the flight plan profile view on the Maps tab. Long press in the profile view and then move the vertical slider to the left until it intersects with your cruise altitude of 7,500’. As you can see, this point is 45nm from our departure point which is 35nm from our destination as was calculated in the Navlog.
To quickly insert your TOD into your flight plan, go to the Edit view, select your destination waypoint, OSU, then Along-Track Offset. Enter 35 and the TOD waypoint of 35nm from our destination is now entered in your flight plan.
The Rule of Three
The “rule of three” involves calculating the altitude to lose in thousands of feet and multiplying it by three to determine the distance from the destination to begin your descent, essentially creating a 3-degree descent angle.
7,500’ (cruise altitude) – 900’ (OSU airport elevation) = 6,600’
Multiply the altitude to lose (in thousands of feet, 6,600/1000 (6.6)) by three to find the distance from the destination to start your descent.
6.6 x 3 = 19.8nm
As a rule of thumb, to determine the appropriate descent rate, divide your groundspeed (the anticipated groundspeed in your desent) by two and then multiply by 10.
In our example:
167kts / 2 = 83.5 x 10 = 835fpm
Use a Standard Descent Rate
Many pilots utilize a standard descent rate that is comfortable for their aircraft and passengers. Using our same example flight from I69 to OSU and a 500fpm descent rate:
7,500’ (cruise altitude) – 900’ (OSU airport elevation) = 6,600’
Divide the altitude to lose by the desired descent rate to calculate how many minutes from your destination you will need to initiate the descent.
6,600’ / 500fpm = 13.2 minutes from the destination.
To convert 13.2 minutes into mileage from the airport, you will need to determine how many miles per minute you are traveling by dividing your groundspeed by 60.
167kts / 60 = 2.8 miles per minute
Traveling at 2.8 miles per minute, you will need to initiate a descent 37nm from the airport (2.8 mpm x 13.2 minutes).
Other factors to consider
Terrain and obstacle considerations, airspace constraints, and ATC limitations can all influence your descent planning. Passenger comfort can also come into play. If you are dealing with sensitive ears, you may wish to opt for a shallower descent rate; however, in the warmer months, the lower altitudes may be more turbulent and you may wish to delay your descent in favor of smoother and cooler air.
If you are approaching a non-towered airport, you may wish to reach pattern altitude several miles from the airport to position yourself onto an appropriate entry leg and get appropriately configured.
As you can see, there are multiple methods for determining an appropriate descent profile. The most important takeaway is to have a plan and stay ahead of the aircraft.
Share Your Thoughts on the State of Flight Training and Enter for a Chance to Win
/in News/by Flight Training Central StaffSurvey open through February 3, 2025
Results will be released at Redbird Migration in early March 2025. Participants will have the option to receive the survey results directly and be eligible to win a $100 Sporty’s Gift Card.
Video tip: How to avoid turbulence and find a smoother ride
/in Video Tips/by Bret KoebbeDuring your preflight briefing, you observe that the air is clear and there are no storms in sight – does this mean you’re in store for a smooth, enjoyable flight? Possibly, but you should also consider another weather factor that can have a big impact on the comfort of the flight on VFR days: turbulence. This week’s tip discusses ways to avoid rough air and find a smoother ride on your next flight.
The video clip below is from Sporty’s 2025 Learn to Fly Course
Quiz: Cold Weather Operations
/in Quiz/by Chris ClarkeAs winter sets in, it’s more important than ever to understand how the cold weather will not only affect the aircraft performance but also your preflight and weather planning. Use this quiz to test your cold-weather flying knowledge.
Share the quiz to show your results !
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The video clip below is from Sporty’s 2025 Learn to Fly Course
From the Flight Deck Video Series: Line Up and Wait
/in Video Tips/by Flight Training Central Staff“LINE UP AND WAIT” is used to instruct a pilot to taxi onto the departure runway and line up and wait, but NOT depart. While it may seem straightforward on the surface, there are numerous examples in which the instructions were not followed creating a dangerous risk of collision. A variety of human factors can explain why a pilot may mistakenly initiate a takeoff in this situation. An awareness and understanding of these factors along with strategies to mitigate those risks, will help you avoid a costly error. Learn more in this From the Flight Deck video from the FAA.
How to practice power-on stall recoveries (video tip)
/in Video Tips/by Bret KoebbeThis week we go flying to see what power-on stalls are all about. Some pilots are nervous about this maneuver, which can require a nose-high attitude. But with a good understanding of the aerodynamics and a preview from outside the airplane, you’ll have the confidence to perform these stalls smoothly – and hopefully avoid an inadvertent one on takeoff.
The video clip below is from Sporty’s 2025 Learn to Fly Course