Tag Archives: landings

Fog bank and Landings

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This was to be Srinath’s cross-country flight. However as we cleared the Livermore ridge, central valley was covered with fog. We flew over it for a while and then returned to Tracy for touch-and-go. As Steve remarked, every plane is equipped with a 180-degree turn so we flew over the fog layer for about 8 minutes and then turned around. Along the way, Srinath got some experience dealing with VOR, looking for landmarks, guessing locations of airports in the vicinity based on heading and looking for holes in the fog layer if we needed to dip down. A few average landings at Tracy gave him more practice.

First go-around

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Slow flight and shallow turns to the right and left. Power off stall and recovery. Then simulating an engine out emergency. First, trim for a glide attitude for a speed of 65kts. Then attempt an engine restart by (1) checking that the fuel selector valve is on both, (2) mixture is rich, (3) carburetor heat is ON, (4) throttle is cracked open, (5) ignition switch is on BOTH, (6) primer is IN and locked in place. Start the engine if the propeller is stopped. If all of that fails…

Quickly scout for a place to land with wind direction in mind. In this case we were in the vicinity of New Jerusalem airport so we are going to try to land there. No wind today so we aim for Rwy 30. We were high so Srinath used a slip to get down quickly. In the case of an electrical failure the flaps won’t work so slips are a good technique to learn. After a couple of landings, Steve said there was a cow on the runway so Srinath did a go-around. A few more landings at New Jerusalem and then back to Livermore for a straight in landing.

Happy new year!

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This morning the winds were from 050 at 9kts. So runway 7L and 7R were in operation. This meant a long taxi from our hangar and a good time to lean the mixture. Carburetors are calibrated to properly mix fuel with air at sea level. During normal engine operation, a proper air-fuel mixture is fully burned in the engine for optimal performance. When the engine runs at a low RPM (for instance while taxiing), the rich air-fuel mixture isn’t fully burned due to a cooler engine. This causes carbon buildup in the spark plugs and the fouling can result in lower engine performance. The carbon buildup can also occur if the mixture is too rich e.g. at higher altitudes where the air density is lower but unadjusted fuel density remains higher. For better engine performance, less likelihood of spark plugs fouling up and to warm the engine sooner, leaning the mixture is recommended when a long taxi is anticipated.

We start off by performing power-off stall recovery in the clean configuration. I was very slow in powering up the engine to recover from stalls and as a result dropped over 500′ on the first couple of attempts attempt. After many tries, ended up with between 50′-75′ of altitude loss.

Then Steve demonstrated a power-on stall with 2200 rpm on the engine i.e. not fully powered up. Power-on stalls typically occur during takeoff or a go-around. Listen for the stall horn and drop the nose. Steve demonstrated a tendency to spin to the left if the stall is not recognized quickly. If that happens, the first thing to do is to pull back the power and relax the back pressure to increase air speed over the wings to produce lift. Then power up and pull back.

Next was engine out simulation. First trim for a glide speed of 65kts. Then run through a checklist

  • Was the fuel selector accidentally kicked around or is the selector still on both?
  • Is the mixture rich?
  • Is the carburetor heat off?
  • Check the throttle
  • Check mag switch positions and whether that revives the engine
  • Check the primer if it is IN i.e. off.

Once the usual suspects have been eliminated, observe the wind and look for a place to land into the wind. Brown fields better than green (wet). Smooth fields better than plowed fields. If plowed, along the furrows better than across. No railroad tracks. Since we identified a place to land and it was pretty much beneath us, we had to lose altitude quickly. One could either perform 360 turns to lose altitude. Or, in this case Steve demonstrated a forward slip.

Time for a ground reference maneuver – turns around a point. It is important to enter the maneuver downwind and maintain about 800′ AGL. On the first orbit observe the effects of the wind and remember mental landmarks where the turns should occur. Subsequent turns are expected to be more accurate. At one point, Steve suddenly took over controls and performed an evasive action by banking the plane to the right. This was upon spotting another plane in the vicinity. Then back to the ground reference maneuver this time turns to the right.

Finally, time for some touch-and-go’s at Byron. Steve talking on the radio for each leg of the approach to Byron is quite informative. The first landing was pretty hard, second was good and the third was below average.

On the way back to Livermore, we had a close call with a Skycatcher coming towards us. Tower told us that the Skycatcher was 3 miles out at 2000′ and we were at 3100′. A couple of minutes later, the tower informed the Skycatcher (which was now at 2400′) that an inbound Cessna was 1.5 miles in front and suggested that he turn right. As I was commenting to Steve that 3100′ was about our altitude, he gestured me to turn right. While I was trying to process the information, the tower asked us to turn right because of the Skycatcher and Steve jumped on it right away to avoid the oncoming aircraft.

Foray into night flying

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Srinath’s turn to fly today. I headed straight from work to the airport. Unfortunately we forgot to pack the GoPro so today’s video was shot on a handheld iPhone and we don’t have an audio feed.

We started with high air work – steep turns, slow flight, stall and recovery. Then we headed to Byron for some landings. By now it was inching closer to dusk and since this was a training flight with our instructor, we were not constrained by the night flying rules.

Speaking of night, there are three different definitions in the FAR for different purposes. FAR 1.1 defines night as the time from the end of evening civil twilight to the beginning of morning civil twilight as published in the air almanac, converted to local time. This is for logging night flying hours. FAR 61.57(b) defines night takeoff and landing experience required for PIC. Night in this context is defined as starting one hour after sunset and ending one hour before sunrise. Three takeoffs and landings to a full stop are required within the preceding 90 days to be current. Finally FAR 91.209 talks about turning on position lights from sunset to sunrise.

Here is how I remember the three regulations. First of all, civil twilight is when the sun is at or up to 6 degrees below the horizon. At most latitudes (except as you approach the poles), civil twilight lasts less than an hour. So there are three regulations and they apply to three points in time – sunset, twilight and one-hour-after-sunset. Just as we would in a car, we should turn on the lights as early as possible. Sunset is the earliest of the three times and it makes sense to turn on position lights at this time. As a pilot in command carrying passengers, you want to be proficient in night landings. It makes sense for the regulations to stipulate currency requirements in the worst case scenario (i.e.) when it is the darkest. This is one-hour-after-sunset among the three times. That leaves night logging for hours starting with the end of evening civil twilight and ending at the start of morning twilight (i.e.) when the sun is at least 6 degrees below the horizon.

After a few landings, Srinath flew back to Livermore for a night landing.

More high air work

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We were heading towards New Jerusalem and had entered the hills east of Livermore. Steve suddenly pulled the power (engine out simulation) and asked Srinath what he would do. Srinath suggested checking the fuel gauges (wrong), restarting the engine (wrong). Then he was scouting for a location (wrong). We were losing altitude and the terrain beneath us was climbing so the first thing to do was to turn 180 and head out of the hills back to the valley from which we approached. Steve took over the plane, made a steep turn to the left 180 degrees and got us pointing out of the hills towards the Livermore valley. This way we have increasing altitude under us. Then we scout for a place to make an emergency landing. We had a couple of back roads and some green fields and that was it. The exercise was over, we put the throttle back in, turned 180 and headed back into the hills, aimed for the valleys since we were still climbing slowly and again wanted more altitude underneath us.

Later, we headed towards New Jerusalem for steep turns, slow flight. When making turns in slow flight, look at the turn and bank indicator to make sure the turn isn’t steep. Don’t go beyond the first notch. Next, stall in the landing configuration – Steve demonstrated why you don’t dump all the flaps at once. We lost lift and descended at about 2000′ a minute even though the engine was powered up. Of course, this can be serious when you are close to the ground and starting a go-around.

Finally, some landings at New Jerusalem and then back to Livermore.

Landing Secrets Revealed

Aviation,

A catchy title for Dan Dyer‘s seminar at the San Carlos Flight Center. He is a CFI and shared his observations and insights on improving landings.

  1. A good pilot is constantly improving his/her landings.
  2. Goal is a repeatable way to land the plane.
  3. Everything in a pattern is based on relative terms to the runway – not based on landmarks because those landmarks do not exist in any other place but this one.
  4. Spend half the time looking out at the runway. If somebody comes in with experience in flight simulators, first thing is to cover up all the instruments. It is all about the nose, horizon and the runway.
  5. Stabilized approach = Stabilized Pitch + Stabilized Power. (Stable nose / stable noise)
  6. Very important to look good. The stability of your approach on final is viewable from the ground. Students from your school are holding short of the runway.
  7. A small change made early is better than a big change made late.
  8. Glide slope indicators are only for IFR
    • the slope is more gentle than what VFR pilots can do with good visibility
    • they don’t provide trend information.
    • doesn’t exist at all airports
    • touchdown is well past the numbers whereas VFR pilots go for the numbers
  9. Roundout is performed with only one control – elevator control aft
  10. The flare is meant to get rid of excess speed. Savor the ground effect and flare. Flare for as long as is necessary to burn off excess energy.
  11. Your job as a pilot is all about setting the plane in the right attitude. The plane lands itself.
  12. First half of the flare is to control with pitch to bring the plane into the right nose up attitude. The second half is to use the throttle to bring the plane down to inches off the ground.
  13. The time between wheels touchdown indicates the quality of landing. Safer landing is more time between wheels touchdown.
  14. Tips for improving landings
    • Nose play with horizon. Box the horizon. Be able to freeze the nose anywhere and maintain it there
    • Mindful taxiing to stay centered and master the rudder pedals
    • Low long passes. Float over the runway
    • Fun landing games (eg. touchdown only on the main wheels, don’t set nose wheel, then do a go-around)
    • slow long low power takeoffs

More Landings

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Trying to make up for the last month when we couldn’t schedule even a single lesson.  This week is turning out to be all about landings. It is Srinath’s turn to fly today. Flight service gave us a bird advisory in the Livermore airport vicinity – first time I’ve heard this. We flew south of R-2531 after a left downwind departure from Livermore since the restricted area was in effect today being a weekday. This time we looked for landmarks that we had studied in the sectional chart last sunday.

A the end of two attempts at slow flight, we were at 3000′ and the aircraft and almost right above the New Jerusalem runway. So Srinath put the engine in idle, looked for 65kts glide speed and we circled once to lose altitude before going in for the first landing. On the second landing, Srinath took his hands off the throttle so Steve immediately put in full power for a go-around. Srinath did a total of 5 landings and one go-around at New Jerusalem, Steve did one landing to show Srinath. Then Srinath did a 6th straight-in landing back at Livermore.

[Aug 14] Steve and I both have a hard stop in the morning so we decide to shoot landings at Livermore airport itself. We start at 7:30am and get 13 landings in an hour before calling it a day.

9 Landings

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We traveled to see the Grand Canyon NP right after the previous flying lesson. By the time we came back, Steve was on vacation for a week. The following week he was in town but we couldn’t arrange a suitable time with him. Then he went to the EAA’s OshKosh Airventure for a week. We finally managed to fly again today after just over a month since the last lesson.

First for some refresher on the charts (Section and TAC). The plan was to fly to New Jerusalem and practice landings. Steve told us how to find New Jerusalem based on the charts and then he pointed out a restricted area R-2531 just to the southwest of Tracy airport. The landmarks were a tall tower on the east side of the restricted area and a road that runs to the south of the area. They didn’t operate the restricted area on weekends so it was OK if we inadvertently few over it – well, OK we did it on purpose, not inadvertently.

Steve didn’t want me getting too comfortable with right downwind departures from KLVK so this time we decided to take off from 25R on a left downwind departure. A few minutes into the flight, the controller announced there was another airplane at 11 O’clock heading towards us at 3800′. We were at around 3000′. By the time we spotted, it was a couple of hundred feet above us. Since we were climbing, I temporarily leveled the plane until we crossed each other before resuming the climb.

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There was nobody at the New Jerusalem airport where we headed for touch and go’s. I did 8 landings of which I pulled off one of them without Steve having to touch the controls. In general, the landings were hard because I haven’t figured out how high I’m above the runway. When I thought I was inches above, I turned out to be about 10 feet above. We then returned to Livermore for the 9th landing of the day which was a straight-in approach.

Instrument hood, Slow flight and Landings

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Today was an early morning flight at 8am. We got to the hangar and started preflight before Steve arrived. It is my turn to fly today and we started with some instrument work under the hood.

Next, we worked on slow flight. Twice I put the plane into slow flight. On the second attempt, Steve asked me to make a shallow left turn. I banked to the left (wings lower on the left) and to keep the turn coordinated, I had to relax the right rudder just a little bit. I relaxed it a bit too much so there was more yaw to the left as I was also banking. The plane has an over banking tendency since the outer wings are moving faster than the inner wings leading to more lift on the outer wings. Since the plane was close to stall speed (stall horns blaring constantly during slow flight) I thought the plane could go into a stall and left spin so I instinctively went for the throttle to give it a little power. This is when Steve caught my arm and pulled it back (see 6:21 in the video). He mentioned that power in that situation could have got me into a lot of trouble. Later, he demonstrated (at 7:05) what would have happened if I had given it throttle in the middle of the left turn close to stall speed. He didn’t give any power but his demonstration showed that we would have entered a spin. He quickly corrected it but you can see that the plane was in an unusual attitude of a very high bank angle to the left. If I had given power in that situation, we could have gone into a steep spiral. Phew.

We then did three touch and go landings at New Jerusalem. But first, we flew over the airport to check wind conditions since there was no weather information for the non-towered airport. After the landings, in the way back to Livermore, at 14:08 in the video Steve demonstrates how a fixed pitch prop’s RPM increases with nose down pitch when the airspeed increases.