The Aeroplane Speaks [6]
insisted upon me changing my fabric for one of a smoother surface, and that delayed me. Dear me, there are a lot more of us to-day, aren't there? I think I had better meet one at a time.'' And turning to Directional Stability, she politely asked him what he preferred to do.
[[4]] Morane parasol: A type of Morane monoplane in which the lifting surfaces are raised above the pilot in order to afford him a good view of the earth.
[[5]] Skin friction is that part of the drift due to the friction of the air with roughnesses upon the surface of the aeroplane.
``My purpose in life, miss,'' said he, ``is to keep the Aeroplane on its course, and to achieve that there must be, in effect, more Keel-Surface behind the Vertical Turning Axis than there is in front of it.''
Efficiency looking a little puzzled, he added: ``Just like a weathercock, and by Keel-Surface I mean everything you can see when you view the Aeroplane from the side of it--the sides of the body, struts, wires, etc.''
``Oh, now I begin to see light,'' said she: ``but just exactly how does it work?''
``I'll answer that,'' said Momentum. ``When perhaps by a gust of air the Aeroplane is blown out of its course and points in another direction, it doesn't immediately fly off on that new course. I'm so strong I pull it off the new course to a certain extent, and towards the direction of the old course. And so it travels, as long as my strength lasts, in a more or less sideways position.''
``Then,'' said the Keel-Surface, ``I get a pressure of air all on one side, and as there is, in effect, most of me towards the tail, the latter gets pressed sideways, and the Aeroplane thus tends to assume its first position and course.''
``I see,'' said Efficiency, and, daintily holding the Chalk, she approached the Blackboard. ``Is this what you mean?''
``Yes, that's right enough,'' said the Keel-Surface, ``and you might remember, too, that I always make the Aeroplane nose into the gusts rather than away from them.''
``If that was not the case,'' broke in Lateral Stability, and affecting the fashionable Flying Corps stammer, ``it would be a h-h-h-o-r-rible affair! If there were too much Keel-Surface in front, then that gust would blow the Aeroplane round the other way a very considerable distance. And the right-hand Surface being on the outside of the turn would have more speed, and consequently more Lift, than the Surface on the other side. That means a greater proportion of the Lift on that side, and before you could say Warp to the Ailerons over the Aeroplane would go--probable result a bad side-slip''
``And what can the Pilot do to save such a situation as that?'' said Efficiency.
``Well,'' replied Lateral Stability, ``he will try to turn the Aeroplane sideways and back to an even keel by means of warping the Ailerons or little wings which are hinged on to the Wing-tips, and about which you will hear more later on; but if the side-slip is very bad he may not be able to right the Aeroplane by means of the Ailerons, and then the only thing for him to do is to use the Rudder and to turn the nose of the Aeroplane down and head-on to the direction of motion. The Aeroplane will then be meeting the air in the direction it is designed to do so, and the Surfaces and also the controls (the Rudder, Ailerons, and Elevator) will be working efficiently; but its attitude relative to the earth will probably be more or less upside-down, for the action of turning the Aeroplane's nose down results, as you will see by the illustration B, in the right wing, which is on the outside of the circle. travelling through the air with greater speed than the left-hand wing. More Speed means more Lift, so that results in overturning the Aeroplane still more; but now it is, at any rate, meeting the air as it is designed to meet it, and everything is working properly. It is then only necessary to warp the Elevator, as shown in illustration C, in order to bring the Aeroplane into a proper attitude relative to the earth.''
``Ah!'' said the Rudder, looking wise, ``it's in a case
[[4]] Morane parasol: A type of Morane monoplane in which the lifting surfaces are raised above the pilot in order to afford him a good view of the earth.
[[5]] Skin friction is that part of the drift due to the friction of the air with roughnesses upon the surface of the aeroplane.
``My purpose in life, miss,'' said he, ``is to keep the Aeroplane on its course, and to achieve that there must be, in effect, more Keel-Surface behind the Vertical Turning Axis than there is in front of it.''
Efficiency looking a little puzzled, he added: ``Just like a weathercock, and by Keel-Surface I mean everything you can see when you view the Aeroplane from the side of it--the sides of the body, struts, wires, etc.''
``Oh, now I begin to see light,'' said she: ``but just exactly how does it work?''
``I'll answer that,'' said Momentum. ``When perhaps by a gust of air the Aeroplane is blown out of its course and points in another direction, it doesn't immediately fly off on that new course. I'm so strong I pull it off the new course to a certain extent, and towards the direction of the old course. And so it travels, as long as my strength lasts, in a more or less sideways position.''
``Then,'' said the Keel-Surface, ``I get a pressure of air all on one side, and as there is, in effect, most of me towards the tail, the latter gets pressed sideways, and the Aeroplane thus tends to assume its first position and course.''
``I see,'' said Efficiency, and, daintily holding the Chalk, she approached the Blackboard. ``Is this what you mean?''
``Yes, that's right enough,'' said the Keel-Surface, ``and you might remember, too, that I always make the Aeroplane nose into the gusts rather than away from them.''
``If that was not the case,'' broke in Lateral Stability, and affecting the fashionable Flying Corps stammer, ``it would be a h-h-h-o-r-rible affair! If there were too much Keel-Surface in front, then that gust would blow the Aeroplane round the other way a very considerable distance. And the right-hand Surface being on the outside of the turn would have more speed, and consequently more Lift, than the Surface on the other side. That means a greater proportion of the Lift on that side, and before you could say Warp to the Ailerons over the Aeroplane would go--probable result a bad side-slip''
``And what can the Pilot do to save such a situation as that?'' said Efficiency.
``Well,'' replied Lateral Stability, ``he will try to turn the Aeroplane sideways and back to an even keel by means of warping the Ailerons or little wings which are hinged on to the Wing-tips, and about which you will hear more later on; but if the side-slip is very bad he may not be able to right the Aeroplane by means of the Ailerons, and then the only thing for him to do is to use the Rudder and to turn the nose of the Aeroplane down and head-on to the direction of motion. The Aeroplane will then be meeting the air in the direction it is designed to do so, and the Surfaces and also the controls (the Rudder, Ailerons, and Elevator) will be working efficiently; but its attitude relative to the earth will probably be more or less upside-down, for the action of turning the Aeroplane's nose down results, as you will see by the illustration B, in the right wing, which is on the outside of the circle. travelling through the air with greater speed than the left-hand wing. More Speed means more Lift, so that results in overturning the Aeroplane still more; but now it is, at any rate, meeting the air as it is designed to meet it, and everything is working properly. It is then only necessary to warp the Elevator, as shown in illustration C, in order to bring the Aeroplane into a proper attitude relative to the earth.''
``Ah!'' said the Rudder, looking wise, ``it's in a case