Why does the turn coordinator ball move to the right during a climb?
In a light aircraft like a C172 or PA-28, during a climb the ball in the turn coordinator moves to the right. Why?
flight-instruments climb gyroscopic-instruments
New contributor
|
show 4 more comments
In a light aircraft like a C172 or PA-28, during a climb the ball in the turn coordinator moves to the right. Why?
flight-instruments climb gyroscopic-instruments
New contributor
What is a "stright" climb?
– abelenky
7 hours ago
Not accelerated climb
– PILOTSTUDENT1599
7 hours ago
Does it, though? In a straight and steady climb, the pilot will use rudder input to keep the ball centered. If the pilot does that during the climb, then the ball will only move as the pilot begins and ends the climb.
– Tanner Swett
7 hours ago
Well i know that it goes to right but i dont know why .
– PILOTSTUDENT1599
7 hours ago
Welcome to aviation.SE! Are you asking about a typical light, single-engine trainer like the C172? And if you're new to the site, the tour may be useful.
– Pondlife
6 hours ago
|
show 4 more comments
In a light aircraft like a C172 or PA-28, during a climb the ball in the turn coordinator moves to the right. Why?
flight-instruments climb gyroscopic-instruments
New contributor
In a light aircraft like a C172 or PA-28, during a climb the ball in the turn coordinator moves to the right. Why?
flight-instruments climb gyroscopic-instruments
flight-instruments climb gyroscopic-instruments
New contributor
New contributor
edited 6 hours ago
Pondlife
50.2k8135277
50.2k8135277
New contributor
asked 7 hours ago
PILOTSTUDENT1599
112
112
New contributor
New contributor
What is a "stright" climb?
– abelenky
7 hours ago
Not accelerated climb
– PILOTSTUDENT1599
7 hours ago
Does it, though? In a straight and steady climb, the pilot will use rudder input to keep the ball centered. If the pilot does that during the climb, then the ball will only move as the pilot begins and ends the climb.
– Tanner Swett
7 hours ago
Well i know that it goes to right but i dont know why .
– PILOTSTUDENT1599
7 hours ago
Welcome to aviation.SE! Are you asking about a typical light, single-engine trainer like the C172? And if you're new to the site, the tour may be useful.
– Pondlife
6 hours ago
|
show 4 more comments
What is a "stright" climb?
– abelenky
7 hours ago
Not accelerated climb
– PILOTSTUDENT1599
7 hours ago
Does it, though? In a straight and steady climb, the pilot will use rudder input to keep the ball centered. If the pilot does that during the climb, then the ball will only move as the pilot begins and ends the climb.
– Tanner Swett
7 hours ago
Well i know that it goes to right but i dont know why .
– PILOTSTUDENT1599
7 hours ago
Welcome to aviation.SE! Are you asking about a typical light, single-engine trainer like the C172? And if you're new to the site, the tour may be useful.
– Pondlife
6 hours ago
What is a "stright" climb?
– abelenky
7 hours ago
What is a "stright" climb?
– abelenky
7 hours ago
Not accelerated climb
– PILOTSTUDENT1599
7 hours ago
Not accelerated climb
– PILOTSTUDENT1599
7 hours ago
Does it, though? In a straight and steady climb, the pilot will use rudder input to keep the ball centered. If the pilot does that during the climb, then the ball will only move as the pilot begins and ends the climb.
– Tanner Swett
7 hours ago
Does it, though? In a straight and steady climb, the pilot will use rudder input to keep the ball centered. If the pilot does that during the climb, then the ball will only move as the pilot begins and ends the climb.
– Tanner Swett
7 hours ago
Well i know that it goes to right but i dont know why .
– PILOTSTUDENT1599
7 hours ago
Well i know that it goes to right but i dont know why .
– PILOTSTUDENT1599
7 hours ago
Welcome to aviation.SE! Are you asking about a typical light, single-engine trainer like the C172? And if you're new to the site, the tour may be useful.
– Pondlife
6 hours ago
Welcome to aviation.SE! Are you asking about a typical light, single-engine trainer like the C172? And if you're new to the site, the tour may be useful.
– Pondlife
6 hours ago
|
show 4 more comments
2 Answers
2
active
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If the ball is offset it means the airplane is accelerating laterally, that is, it's slewing to the side as it flies. Torque from the engine, plus the spiral flow from the propeller wake and asymmetric thrust from the propeller disc, is doing it and the higher the power setting/the lower the speed, the worse it is.
Vertical fins typically have a bit of directional offset to correct for this in the cruise case without having to add rudder (look carefully at the dorsal fin on a 172, and you'll see it isn't aligned perfectly down the centerline but points to the left a couple degrees), but at high power settings and low speeds, like in a climb, the fin offset isn't enough and some right rudder input is also required to center the ball.
It's the same reason you need a lot of right rudder on takeoff. If the engine rotated the other way, everything would be opposite and you'd need left rudder. Engines themselves are also offset in the mount, canted to the right a little bit, for the same purpose.
If you are sufficiently sensitive to it you will feel the side slip in your body, which will want to slouch in the same direction as the skid ball (because that's where the apparent gravity is) and you can maintain reasonably coordinated flight without looking at the ball.
add a comment |
There are 4 left turning tendencies in aircraft with "clockwise" (as seen from the pilots seat)
turning propeller, 3 of which may apply during a full power climb out. The four are:
Prop torque - prop turns right, plane rolls left - more noticeable at high power/slower
speedGyroscopic precession - nose goes down - plane yaws left - not a factor in a climb - some
effect as plane levels out, also there on tail draggers as rear of plane rises during take off
rollAsymmetric prop blade thrust at higher AOA (p factor). Differences in thrust of ascending
and descending prop blades will cause yaw to the left.Spiral slipstream striking vertical stabilizer and side of fuselage, causing yaw to left.
Number 1 has to be watched in higher performance engines during takeoff roll. Lifting off with insufficient airspeed will cause the plane to roll over and crash. Fortunately, in a Cessna 172, this tendency is much more modest but should not be ignored.
3 and 4 are probably the main culprits of left yawing tendency in the climb. The answer: pitch to safe climbing airspeed (generally Vy) at full power and "step on that ball" with
right rudder.
Post script: the rolling tendency caused by high power lower speed torque may cause the pilot to feed in more right aileron when the better input is coordinated with rudder. As the plane accelerates from rotation and liftoff speed to Vy, it would be easy to miss you've rolled slightly to the right due to increased aerodynamic force. In straight line flight this would not be a major problem (unless you were dangerously near aileron reversal stall speed). I would work on glancing down at the ball as soon as safe climb is established, perhaps while checking airspeed. Stay coordinated.
add a comment |
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2 Answers
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2 Answers
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If the ball is offset it means the airplane is accelerating laterally, that is, it's slewing to the side as it flies. Torque from the engine, plus the spiral flow from the propeller wake and asymmetric thrust from the propeller disc, is doing it and the higher the power setting/the lower the speed, the worse it is.
Vertical fins typically have a bit of directional offset to correct for this in the cruise case without having to add rudder (look carefully at the dorsal fin on a 172, and you'll see it isn't aligned perfectly down the centerline but points to the left a couple degrees), but at high power settings and low speeds, like in a climb, the fin offset isn't enough and some right rudder input is also required to center the ball.
It's the same reason you need a lot of right rudder on takeoff. If the engine rotated the other way, everything would be opposite and you'd need left rudder. Engines themselves are also offset in the mount, canted to the right a little bit, for the same purpose.
If you are sufficiently sensitive to it you will feel the side slip in your body, which will want to slouch in the same direction as the skid ball (because that's where the apparent gravity is) and you can maintain reasonably coordinated flight without looking at the ball.
add a comment |
If the ball is offset it means the airplane is accelerating laterally, that is, it's slewing to the side as it flies. Torque from the engine, plus the spiral flow from the propeller wake and asymmetric thrust from the propeller disc, is doing it and the higher the power setting/the lower the speed, the worse it is.
Vertical fins typically have a bit of directional offset to correct for this in the cruise case without having to add rudder (look carefully at the dorsal fin on a 172, and you'll see it isn't aligned perfectly down the centerline but points to the left a couple degrees), but at high power settings and low speeds, like in a climb, the fin offset isn't enough and some right rudder input is also required to center the ball.
It's the same reason you need a lot of right rudder on takeoff. If the engine rotated the other way, everything would be opposite and you'd need left rudder. Engines themselves are also offset in the mount, canted to the right a little bit, for the same purpose.
If you are sufficiently sensitive to it you will feel the side slip in your body, which will want to slouch in the same direction as the skid ball (because that's where the apparent gravity is) and you can maintain reasonably coordinated flight without looking at the ball.
add a comment |
If the ball is offset it means the airplane is accelerating laterally, that is, it's slewing to the side as it flies. Torque from the engine, plus the spiral flow from the propeller wake and asymmetric thrust from the propeller disc, is doing it and the higher the power setting/the lower the speed, the worse it is.
Vertical fins typically have a bit of directional offset to correct for this in the cruise case without having to add rudder (look carefully at the dorsal fin on a 172, and you'll see it isn't aligned perfectly down the centerline but points to the left a couple degrees), but at high power settings and low speeds, like in a climb, the fin offset isn't enough and some right rudder input is also required to center the ball.
It's the same reason you need a lot of right rudder on takeoff. If the engine rotated the other way, everything would be opposite and you'd need left rudder. Engines themselves are also offset in the mount, canted to the right a little bit, for the same purpose.
If you are sufficiently sensitive to it you will feel the side slip in your body, which will want to slouch in the same direction as the skid ball (because that's where the apparent gravity is) and you can maintain reasonably coordinated flight without looking at the ball.
If the ball is offset it means the airplane is accelerating laterally, that is, it's slewing to the side as it flies. Torque from the engine, plus the spiral flow from the propeller wake and asymmetric thrust from the propeller disc, is doing it and the higher the power setting/the lower the speed, the worse it is.
Vertical fins typically have a bit of directional offset to correct for this in the cruise case without having to add rudder (look carefully at the dorsal fin on a 172, and you'll see it isn't aligned perfectly down the centerline but points to the left a couple degrees), but at high power settings and low speeds, like in a climb, the fin offset isn't enough and some right rudder input is also required to center the ball.
It's the same reason you need a lot of right rudder on takeoff. If the engine rotated the other way, everything would be opposite and you'd need left rudder. Engines themselves are also offset in the mount, canted to the right a little bit, for the same purpose.
If you are sufficiently sensitive to it you will feel the side slip in your body, which will want to slouch in the same direction as the skid ball (because that's where the apparent gravity is) and you can maintain reasonably coordinated flight without looking at the ball.
answered 4 hours ago
John K
14.1k11543
14.1k11543
add a comment |
add a comment |
There are 4 left turning tendencies in aircraft with "clockwise" (as seen from the pilots seat)
turning propeller, 3 of which may apply during a full power climb out. The four are:
Prop torque - prop turns right, plane rolls left - more noticeable at high power/slower
speedGyroscopic precession - nose goes down - plane yaws left - not a factor in a climb - some
effect as plane levels out, also there on tail draggers as rear of plane rises during take off
rollAsymmetric prop blade thrust at higher AOA (p factor). Differences in thrust of ascending
and descending prop blades will cause yaw to the left.Spiral slipstream striking vertical stabilizer and side of fuselage, causing yaw to left.
Number 1 has to be watched in higher performance engines during takeoff roll. Lifting off with insufficient airspeed will cause the plane to roll over and crash. Fortunately, in a Cessna 172, this tendency is much more modest but should not be ignored.
3 and 4 are probably the main culprits of left yawing tendency in the climb. The answer: pitch to safe climbing airspeed (generally Vy) at full power and "step on that ball" with
right rudder.
Post script: the rolling tendency caused by high power lower speed torque may cause the pilot to feed in more right aileron when the better input is coordinated with rudder. As the plane accelerates from rotation and liftoff speed to Vy, it would be easy to miss you've rolled slightly to the right due to increased aerodynamic force. In straight line flight this would not be a major problem (unless you were dangerously near aileron reversal stall speed). I would work on glancing down at the ball as soon as safe climb is established, perhaps while checking airspeed. Stay coordinated.
add a comment |
There are 4 left turning tendencies in aircraft with "clockwise" (as seen from the pilots seat)
turning propeller, 3 of which may apply during a full power climb out. The four are:
Prop torque - prop turns right, plane rolls left - more noticeable at high power/slower
speedGyroscopic precession - nose goes down - plane yaws left - not a factor in a climb - some
effect as plane levels out, also there on tail draggers as rear of plane rises during take off
rollAsymmetric prop blade thrust at higher AOA (p factor). Differences in thrust of ascending
and descending prop blades will cause yaw to the left.Spiral slipstream striking vertical stabilizer and side of fuselage, causing yaw to left.
Number 1 has to be watched in higher performance engines during takeoff roll. Lifting off with insufficient airspeed will cause the plane to roll over and crash. Fortunately, in a Cessna 172, this tendency is much more modest but should not be ignored.
3 and 4 are probably the main culprits of left yawing tendency in the climb. The answer: pitch to safe climbing airspeed (generally Vy) at full power and "step on that ball" with
right rudder.
Post script: the rolling tendency caused by high power lower speed torque may cause the pilot to feed in more right aileron when the better input is coordinated with rudder. As the plane accelerates from rotation and liftoff speed to Vy, it would be easy to miss you've rolled slightly to the right due to increased aerodynamic force. In straight line flight this would not be a major problem (unless you were dangerously near aileron reversal stall speed). I would work on glancing down at the ball as soon as safe climb is established, perhaps while checking airspeed. Stay coordinated.
add a comment |
There are 4 left turning tendencies in aircraft with "clockwise" (as seen from the pilots seat)
turning propeller, 3 of which may apply during a full power climb out. The four are:
Prop torque - prop turns right, plane rolls left - more noticeable at high power/slower
speedGyroscopic precession - nose goes down - plane yaws left - not a factor in a climb - some
effect as plane levels out, also there on tail draggers as rear of plane rises during take off
rollAsymmetric prop blade thrust at higher AOA (p factor). Differences in thrust of ascending
and descending prop blades will cause yaw to the left.Spiral slipstream striking vertical stabilizer and side of fuselage, causing yaw to left.
Number 1 has to be watched in higher performance engines during takeoff roll. Lifting off with insufficient airspeed will cause the plane to roll over and crash. Fortunately, in a Cessna 172, this tendency is much more modest but should not be ignored.
3 and 4 are probably the main culprits of left yawing tendency in the climb. The answer: pitch to safe climbing airspeed (generally Vy) at full power and "step on that ball" with
right rudder.
Post script: the rolling tendency caused by high power lower speed torque may cause the pilot to feed in more right aileron when the better input is coordinated with rudder. As the plane accelerates from rotation and liftoff speed to Vy, it would be easy to miss you've rolled slightly to the right due to increased aerodynamic force. In straight line flight this would not be a major problem (unless you were dangerously near aileron reversal stall speed). I would work on glancing down at the ball as soon as safe climb is established, perhaps while checking airspeed. Stay coordinated.
There are 4 left turning tendencies in aircraft with "clockwise" (as seen from the pilots seat)
turning propeller, 3 of which may apply during a full power climb out. The four are:
Prop torque - prop turns right, plane rolls left - more noticeable at high power/slower
speedGyroscopic precession - nose goes down - plane yaws left - not a factor in a climb - some
effect as plane levels out, also there on tail draggers as rear of plane rises during take off
rollAsymmetric prop blade thrust at higher AOA (p factor). Differences in thrust of ascending
and descending prop blades will cause yaw to the left.Spiral slipstream striking vertical stabilizer and side of fuselage, causing yaw to left.
Number 1 has to be watched in higher performance engines during takeoff roll. Lifting off with insufficient airspeed will cause the plane to roll over and crash. Fortunately, in a Cessna 172, this tendency is much more modest but should not be ignored.
3 and 4 are probably the main culprits of left yawing tendency in the climb. The answer: pitch to safe climbing airspeed (generally Vy) at full power and "step on that ball" with
right rudder.
Post script: the rolling tendency caused by high power lower speed torque may cause the pilot to feed in more right aileron when the better input is coordinated with rudder. As the plane accelerates from rotation and liftoff speed to Vy, it would be easy to miss you've rolled slightly to the right due to increased aerodynamic force. In straight line flight this would not be a major problem (unless you were dangerously near aileron reversal stall speed). I would work on glancing down at the ball as soon as safe climb is established, perhaps while checking airspeed. Stay coordinated.
edited 1 hour ago
answered 4 hours ago
Robert DiGiovanni
1,5081315
1,5081315
add a comment |
add a comment |
PILOTSTUDENT1599 is a new contributor. Be nice, and check out our Code of Conduct.
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What is a "stright" climb?
– abelenky
7 hours ago
Not accelerated climb
– PILOTSTUDENT1599
7 hours ago
Does it, though? In a straight and steady climb, the pilot will use rudder input to keep the ball centered. If the pilot does that during the climb, then the ball will only move as the pilot begins and ends the climb.
– Tanner Swett
7 hours ago
Well i know that it goes to right but i dont know why .
– PILOTSTUDENT1599
7 hours ago
Welcome to aviation.SE! Are you asking about a typical light, single-engine trainer like the C172? And if you're new to the site, the tour may be useful.
– Pondlife
6 hours ago