|
Matronics Email Lists Web Forum Interface to the Matronics Email Lists
|
View previous topic :: View next topic |
Author |
Message |
by0ung(at)brigham.net Guest
|
Posted: Wed Apr 28, 2010 7:08 am Post subject: 180 turn back to the runway video |
|
|
Hello Boyd,
Again, a descending (power off) turn at constant air speed is a 1G maneuver.
Jason
Quote: | >>>>>>>>>>>>>>>>>>>>>>>>>>>
|
Jason
Just visited a cfi, and I asked the question "could you remain in 1 g
during a descending turn at a constant air speed" his reply was "you could
for a short while, but it would be the start of a death spiral."
Straight flight at a constant speed and power setting, is considered 1g.
If 1 g is lifting the aircraft and you put it into a turn, You will
require additional energy to cause the plane to change direction, I.e.
TURN 180 Energy is needed to stop the plane from traveling in one
direction, and accelerate it into another direction. Thus more energy/lift
is required from the wings, to make the direction change and also lift the
aircraft. I guess it could be argued that there is still only 1g apposing
gravity, but additional lift is required to cause the change of direction.
Thus 1 PLUS g maneuver, the greater the bank angle the greater the PLUS.
Boyd
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
|
|
Back to top |
|
|
JetPilot
Joined: 10 Jan 2006 Posts: 1246
|
Posted: Wed Apr 28, 2010 11:13 am Post subject: Re: 180 turn back to the runway video |
|
|
Any turn of an airplane will require acceleration to change its direction, you can not turn the direction of any moving object without putting force on it, its a law of physics that can not be broken. What can be done is that the turning forces can be temporarily kept near one G by initiating a descent, and using more of the lift component for the turn, and less for lifting against gravity, TEMPORARILY. But any descent incurred by this will have to be arrested sooner or later by additional lift from the wings, additional G loading somewhere before hitting the ground. You can not change the laws of physics by being a good pilot.
What a good pilot can do is manage these forces so gradually, and smoothly that any increase in G loading is minimal and not noticed by the humans inside the plane. This is very good and important technique, as the return to airport would be done at minimal airspeed with no power... Horsing the plane around and being abrupt with the controls and the resulting G forces could cause an accelerated stall and be disastrous in this situation. So while you can not change the laws of physics, you can manage them so smoothly as to give yourself every chance of completing this maneuver without stalling.
Mike
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
_________________ "NO FEAR" - If you have no fear you did not go as fast as you could have !!!
Kolb MK-III Xtra, 912-S |
|
Back to top |
|
|
Thom Riddle
Joined: 10 Jan 2006 Posts: 1597 Location: Buffalo, NY, USA (9G0)
|
Posted: Thu Apr 29, 2010 4:49 am Post subject: Re: 180 turn back to the runway video |
|
|
....Here is a very good video about the "Impossible Turn" as performed by two guys in a C172.
http://www.aerobats.com/seminar_02-07.html
Richard Pike
MKIII N420P (420ldPoops).....
Richard,
Thanks for posting the "impossible turn" video. Very good indeed. It was missing only two things to complete the picture. An AOA gauge and and G-meter.
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
_________________ Thom Riddle
Buffalo, NY (9G0)
Don't worry about old age... it doesn't last very long.
- Anonymous |
|
Back to top |
|
|
Thom Riddle
Joined: 10 Jan 2006 Posts: 1597 Location: Buffalo, NY, USA (9G0)
|
Posted: Thu Apr 29, 2010 4:56 am Post subject: Re: 180 turn back to the runway video |
|
|
Ooops!
Actually there is a third thing missing in this video. The engine was running at idle power. With idle power the relative effects of various degrees of bank on turn time and altitude loss are correct but what is missing is the effect of stopped prop. But still a very good informative video.... just not complete.
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
_________________ Thom Riddle
Buffalo, NY (9G0)
Don't worry about old age... it doesn't last very long.
- Anonymous |
|
Back to top |
|
|
Jason Omelchuck
Joined: 07 May 2009 Posts: 120 Location: Portland Oregon
|
Posted: Thu Apr 29, 2010 6:43 am Post subject: Re: 180 turn back to the runway video |
|
|
Hello Tom,
I have a clutch on my engine so the prop windmills (and my airplane behaves) with the engine at idle just like it would with the engine stopped.
Regards
Jason
Thom Riddle wrote: | Ooops!
Actually there is a third thing missing in this video. The engine was running at idle power. With idle power the relative effects of various degrees of bank on turn time and altitude loss are correct but what is missing is the effect of stopped prop. But still a very good informative video.... just not complete. |
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
|
|
Back to top |
|
|
by0ung(at)brigham.net Guest
|
Posted: Thu Apr 29, 2010 4:00 pm Post subject: 180 turn back to the runway video |
|
|
Tom and the gang:
Ok I don't think we are really that far apart. What I think we need now
is a definition of terms. Example: is a 1 g turn anything between .7 and
1.3 or .8 and 1.2...... give me your definition of 1 g maneuver.
I had given an example of a steep bank turn to emphasize the situation.
And my definition of 1 g plus is 1.01g and above. I am probably taking
things to literally.
Any time you turn a plane there is going to be more energy required. And
you can trade the energy needed to turn by unloading the wings momentarily
and remain at a literal 1g . But as soon as the plane returns to a steady
state and you remain in a turn, greater than 1g will be required. In a
shallow bank turn it may be as small as 1.05g total. In my definition that
is 1 plus g. If that is a 1 g maneuver by your definition, then we are
still on the same page.
When given the terms power off descending turn. It left the parameters a
bit too open. Now I had mentioned that I had not seen the video. So maybe
everyone else had a better idea of the parameters used.
Sorry if I misled anyone.
Boyd Young
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
|
|
Back to top |
|
|
jbhart(at)onlyinternet.ne Guest
|
Posted: Sun May 02, 2010 6:49 pm Post subject: 180 turn back to the runway video |
|
|
Kolbers,
Riding the mower mid-week, I had some time to think about constant velocity
and 1g turns, and so when the rain started, I started running some numbers.
I picked numbers that were suitable for the FireFly and looked at constant
level turns and descending turns. I did not discover a one g power off
descending turn. But I found that increasing the rate of descent while
keeping the same speed, did decrease wing and g loads and stall speed. This
may not be practical in that it may require a device to increase the drag.
I don't know if flaperons will do the trick. The numbers indicate that if I
keep the FireFly over 40 mph in a coordinated level and/or descending turns,
there is no danger of a stall. If I increase the margin to 50 mph there is
little chance of stall due to an uncoordinated turn.
What follow is my attempt at non-powered flight dynamics. It will be
interesting to get back into the air and to check out some these
calculations. More rain coming tomorrow.
Jack B. Hart FF004
Winchester, IN
-------------------------------------------------------------------------
Sailplane Aerodynamics
Centrifugal Force -> F = WV^2 or R = WV^2
gcR gcF
Where:
W = FireFly gross Weight = 500 pounds
gc = gravitational constant 32.2 ft/sec2
F = centrifugal force in lbf
V = Velocity in ft/sec
^ -> indicates the number trailing is an exponent
R = radius of turn in feet
F = W x tan(Ø)
Where:
Ø = angle of bank in degrees
Substituting into:
R = WV^2 = WV^2 = V^2
gcF gcW tan(Ø) gc tan(Ø)
Constant G-Load = 1/cos(Ø)
Find new stall speeds
Given L = CV2 or C = L/V^2 and V = (L/C)^0.5
Where:
C = coefficent of lift
L = Lift in pounds
V = Velocity in mph
Solve for C at FireFly stall in level flight
C = 500/(27)^2 = 0.686
Using this value of C, calculate the new stall speeds for banking turns.
Turn Radius in Feet While Maintaining Altitude
Bank _________Air Speed______ Constant New FireFly Stall
Angle |mph->| 40 | 50 | 60 | Altitude Wing Stall Speed
(deg) |fps->|58.7 |73.3 | 88.0| G-Load Load (mph) Increase
| radius in feet | (lbf)
0 | ---infinite--- | 1.00 500 27.0 0%
| | | |
15 | 399 | 623 | 898 | 1.04 518 27.5 1.9%
| | | |
30 | 185 | 289 | 417 | 1.15 577 29.0 7.4%
| | | |
45 | 107 | 167 | 240 | 1.41 707 32.1 18.9%
| | | |
60 | 62 | 96 | 138 | 2.00 1,000 38.2 41.5%
Time to Turn 180 Degrees in Seconds
T = ?r/V
Where:
T = time is in seconds
? = pi = 3.1416
V = velocity is in feet per sec
Bank Air Speed
Angle mph-> 40 50 60
(deg) fps->58.7 73.3 88.0
15 21.4 26.7 32.1
30 9.9 12.4 14.9
45 5.7 7.2 8.6
60 3.3 4.1 4.9
Turn Rate in Degrees/Second
Turn rate = 180/T in degrees/second
Bank Air Speed
Angle mph-> 40 50 60
(deg) fps->58.7 73.3 88.0
15 8.4 6.7 5.6
30 18.2 14.5 12.1
45 31.6 25.0 20.9
60 54.5 43.9 36.7
Now what happens if one lowers the nose, reduces power and flies at 50 mph
with 500, 1,000, 1,500 fpm or 8.33, 16.67, 25.00 fps rates of descent.
If one lowers the nose and flies at the same speed and constant velocity in
a circular spiral path, the time to turn 180 degrees increases with the
increase in descent rate. This is because the total distance flown will
increase to complete the turn. This in turn lowers the centrifugal force as
the distance traveled to complete the turn increases. This change in
centrifugal force can be found by calculating the path length for 360 degree
turn and from this determine the effective radius that generates the
centrifugal force. Or by finding the new velocity vector component in the
horizontal plane and applying it to original radius of turn. Calculating
for a 50 mph coordinated(?) turn. I don't know if these assumptions lead to
coordinated turns or not.
Bank Descent Horz Horz Wing New FireFly Stall 180 180
Angle Rate Vel Turn G Wing Stall Speed Turn Altitude
(deg) (fpm) (fps) Rad Load Load (mph) Increase Time Loss
(ft) (lbf) (sec) (ft)
15 0 73.3 623 1.04 518 27.5 1.9% 26.7 0
500 72.8 627 1.03 517 27.5 1.9% 27.1 177
1,000 71.4 639 1.03 515 27.4 1.5% 28.1 369
1,500 68.9 662 1.02 512 27.3 1.1% 30.2 602
30 0 73.3 289 1.15 577 29.0 7.4% 12.4 0
500 72.8 291 1.15 574 28.9 7.0% 12.6 82
1,000 71.4 297 1.13 567 28.7 6.3% 12.8 168
1,500 68.9 307 1.11 555 28.4 5.2% 14.0 279
45 0 73.3 167 1.41 707 32.1 18.9% 7.4 0
500 72.8 168 1.40 700 31.9 18.1% 7.2 47
1,000 71.4 171 1.36 681 31.5 16.7% 7.5 99
1,500 68.9 178 1.30 649 30.8 14.1% 8.1 162
60 0 73.3 96 2.00 1,000 38.2 41.5% 4.1 0
500 72.8 97 1.97 985 37.9 40.4% 4.2 27
1,000 71.4 100 1.87 936 36.9 36.7% 4.4 58
1,500 68.9 102 1.76 879 35.8 32.6% 4.7 94
Conclusions:
1. If you react well, the FireFly should be able to return to the runway
with an engine out at 300 feet agl by dropping the nose and banking at
30 degrees or higher.
2. Drop the nose and fly at best glide speed -> 50 mph
3. Dropping the nose will lower the wing g-load and stall velocity in a
turn.
4. Make coordinated turns, but at 50 mph there is some built in margin of
safety.
5. Constant velocity flying is not such a bad idea.
6. Be gentle with the stick in pitch.
7. When in doubt push the stick forward, it increases ias and distance.
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
|
|
Back to top |
|
|
Thom Riddle
Joined: 10 Jan 2006 Posts: 1597 Location: Buffalo, NY, USA (9G0)
|
Posted: Mon May 03, 2010 2:12 am Post subject: Re: 180 turn back to the runway video |
|
|
Jack,
Thanks for the math. Looks like the math jibes well with my experience and that of others who have used this technique.
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
_________________ Thom Riddle
Buffalo, NY (9G0)
Don't worry about old age... it doesn't last very long.
- Anonymous |
|
Back to top |
|
|
R. Hankins
Joined: 18 Jan 2006 Posts: 185 Location: Grants Pass, Oregon
|
Posted: Sun May 09, 2010 1:59 pm Post subject: Re: 180 turn back to the runway video |
|
|
I just finished up the annual on the KXP and took it out for a test flight. Having read through this thread the other day, I decided to try a whole bunch of simulated departure engine failures with 180 turns back to the runway. I tried steep and shallow, delayed and instant reaction to the power failure. The worst I could do was a shallow turn after waiting for the stall to tell me I needed to react. This took 400' of altitude.
The best case was instant reaction and a tight turn. This took 100 to 150'. I couldn't believe it, so I did it 4 or five times. The most I could lose with the tight turn back was 250' and that only by waiting for the departure stall with the stick back before initiating recovery and turn. No comparison at all between shallow and steep turns. The shallow turns took nearly twice the altitude every time. The KXP is designed to be nimble at these slow speeds and does the 180 steep turn in 5 to 6 seconds.
I did several 360s and 720s in each direction at minimum controllable airspeed, trying to force the accelerated stall and just about got dizzy. Just look down the wing and watch the world go round. I hadn't done these in a while. What a hoot!
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
_________________ Roger in Oregon
1992 KXP 503 - N1782C |
|
Back to top |
|
|
John Hauck
Joined: 09 Jan 2006 Posts: 4639 Location: Titus, Alabama (hauck's holler)
|
Posted: Sun May 09, 2010 3:00 pm Post subject: 180 turn back to the runway video |
|
|
I did several 360s and 720s in each direction at minimum controllable
airspeed, trying to force the accelerated stall and just about got dizzy.
Just look down the wing and watch the world go round. I hadn't done these
in a while. What a hoot!
--------
Roger in Oregon
Roger H/Gang:
I agree with Roger's tests.
Kolbs are nimble little flyers. Very difficult to get one into an
accelerated stall.
Easy for a low time Kolb pilot to get one into a mush/stall in level flight
and not realize they are no longer flying because the aircraft remains level
until it smacks the earth.
Very easy to do this on approach to an unfamiliar grass strip. Swear you
were flying when he hit the earth, and can not understand how you tore up
the Kolb so badly!!!
I've been flying these Kolbs for a while and I still use my air speed
indicator to let me know how I stand as far as flying the airplane. I know
what my stall speed is. As long as I stay above it, I'll keep on flying.
john hauck
mkIII
Titus, AL
| - The Matronics Kolb-List Email Forum - | | Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:
http://www.matronics.com/Navigator?Kolb-List |
|
_________________ John Hauck
MKIII/912ULS
hauck's holler
Titus, Alabama |
|
Back to top |
|
|
|
|
You cannot post new topics in this forum You cannot reply to topics in this forum You cannot edit your posts in this forum You cannot delete your posts in this forum You cannot vote in polls in this forum You cannot attach files in this forum You can download files in this forum
|
Powered by phpBB © 2001, 2005 phpBB Group
|