Wednesday, August 23, 2017

Off to see the eclipse!

By the time you read this, the Great American Eclipse will already have happened on Monday. I'm taking a 9-hour road trip with one of my best friends this week to see it at the point of greatest totality just south of Carbondale, IL.


Image from The Weather Channel.
Guess who else will be in Carbondale? Everyone's favorite weather disaster man, Jim Cantore of The Weather Channel!

Since I'm on the road the next few days enjoying this rare phenomenon, that's all I have this week. See you next Wednesday!


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The author is an airline pilot, flight instructor, and adjunct college professor teaching aviation ground schools. He holds an ATP certificate with ERJ-145 and DHC-8 type ratings, as well as CFI, CFII, MEI, AGI, and IGI certificates, and is a Master-level participant in the FAA's WINGS program and a former FAASafety Team representative. He is on Facebook as Larry the Flying Guy, has a Larry the Flying Guy YouTube channel, and is on Twitter as @Lairspeed.

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Wednesday, August 16, 2017

The first aviation weather forecast

It has been over 113 years since the Wright Brothers' first flight. Like most big events, we see the flashy accomplishment but don't see or appreciate all of the small steps and important details involved in getting there. In fact, celebrities, businesspeople, Nobel Prize winners, and other well-known people often say something like, "It took 20 years to become an overnight success."

The Wright Brothers went to Kitty Hawk several times before 1903's first flight, and the plans and work that went into pulling that off started even before they first left Dayton. In the years before December 17, 1903, they spent hours that led to years of their time laying the groundwork. After all, if you're planning to do the impossible, it pays to do your homework.

One of the elements of their preparation was finding a place that had the sort of weather that would allow for testing the model and the final aircraft. While today we have hi-definition radar maps on our smartphones, reasonably accurate forecasts a week from this afternoon, and Jim Cantore getting blown off of beaches all around the country on the Weather Channel, weather forecasting was still in its infancy back then.

Even what data and forecasts we did have at the dawn of the 20th Century tended to be in generalities over time spans of months and seasons, not the hour-by-hour "It will be 74° with a 17% chance of rain at 11 a.m. on Thursday" forecasts we take for granted. But that was just fine for the Bishop's Boys who just wanted a place that was windier than Ohio during the late fall/early winter, when their bicycle shop tasks wound down for the season.

To this end, Wilbur casually tossed off "one of the most remarkable letters in the history of science" to Octave Chanute on May 13, 1900—three and a half years before the first flight. The penultimate paragraph notes
My business requires that my experimental work be confined to the months between September and January and I would be particularly thankful for advice as to a suitable locality where I could depend on winds of about fifteen miles per hour without rain or too inclement weather. I am certain that such localities are rare. 
Chanute's answer to the weather question:
The two most suitable locations for winter experiments which I know of are near San Diego, California, and St. James City (Pine Island), Florida, on account of the steady sea breezes which I have found to blow there. These, however, are deficient in sand hills, and perhaps even better locations can be found on the Atlantic coasts of South Carolina or Georgia.
Wilbur also pored over tables of data from the Weather Bureau (the predecessor to what we know today as the National Weather Service) and, based on the wind speeds and weather they contained combined with the presence of the sand hills that Chanute suggested, narrowed down his search to what would eventually be the final decision of Kitty Hawk.

Once that good candidate was found, he then wrote a letter to Joseph Dosher, who worked the Weather Bureau station at Kitty Hawk. His reply came 117 years ago today, August 16, 1900, and is the first "aviation weather" forecast:
[T]he beach here is about one mile wide clear of trees or high hills, and islands for nearly sixty miles south. Conditions: the wind blows mostly from the North and Northeast September and October which is nearly down this piece of land. Giving you many miles of a steady wind with a free sweep.
They took his word for it and were not disappointed. They spent several seasons testing their aeronautical ideas on gliders at Kitty Hawk during the winter months, then would return to Dayton for the rest of the year to tend to the bicycle shop and to take what they had learned in North Carolina, refine and improve it, and bring their newest ideas back to the beach during the winter. The amount of work they did in Dayton is why Ohio deserves to be called the "Birthplace of Aviation" even if North Carolina did get the first flight.

Calling this the "first aviation weather forecast" is a bit in jest. The first "real" one wouldn't be until almost 15 years later, as the National Weather service notes:
On Dec. 1, 1918, the U.S. Weather Bureau issued its first aviation weather forecast. It was for the Aerial Mail Service route from New York to Chicago. On May 20, 1926, Congress passed the Air Commerce Act, which included legislation directing the Weather Bureau to "furnish weather reports, forecasts, warnings, to promote the safety and efficiency of air navigation in the United States."
See you next Wednesday!


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The author is an airline pilot, flight instructor, and adjunct college professor teaching aviation ground schools. He holds an ATP certificate with ERJ-145 and DHC-8 type ratings, as well as CFI, CFII, MEI, AGI, and IGI certificates, and is a Master-level participant in the FAA's WINGS program and a former FAASafety Team representative. He is on Facebook as Larry the Flying Guy, has a Larry the Flying Guy YouTube channel, and is on Twitter as @Lairspeed.

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Wednesday, August 9, 2017

Wilbur Wright to Octave Chanute

Text of Wilbur Wright's letter to Octave Chanute, Dayton, May 13, 1900. All images from the Library of Congress.


For some years I have been afflicted with the belief that flight is possible to man. My disease has increased in severity and I feel that it will soon cost me an increased amount of money if not my life. I have been trying to arrange my affairs in such a way that I can devote my entire time for a few months to experiment in this field.

My general ideas of the subject are similar to those held by most practical experimenters, to wit: that what is chiefly needed is skill rather than machinery. The flight of the buzzard and similar sailers is a convincing demonstration of the value of skill, and the partial needlessness of motors. It is possible to fly without motors, but not without knowledge & skill. This I conceive to be fortunate, for man, by reason of his greater intellect, can more reasonably hope to equal birds in knowledge, than to equal nature in the perfection of her machinery.

Assuming then that Lilienthal was correct in his ideas of the principles on which man should proceed, I conceive that his failure was due chiefly to the inadequacy of his method, and of his apparatus. As to his method, the fact that in five years' time he spent only about five hours, altogether, in actual flight is sufficient to show that his method was inadequate. Even the simplest intellectual or acrobatic feats could never be learned
with so short practice, and even Methuselah could never have become an expert stenographer with one hour per year for practice. I also conceive Lilienthal's apparatus to be inadequate not only from the fact that he failed, but my observations of the flight of birds convince me that birds use more positive and energetic methods of regaining equilibrium than that of shifting the center of gravity.

With this general statement of my principles and belief I will proceed to describe the plan and apparatus it is my intention to test. In explaining these, my object is to learn to what extent similar plans have been tested and found to be failures, and also to obtain such suggestions as your great knowledge and experience might enable you to give me. I make no secret of my plans for the reason that I believe no financial profit will accrue to the inventor of the first flying machine, and that only those who are willing to give as well as to receive suggestions can hope to link their names with the honor of its discovery. The problem is too great for one man alone and unaided to solve in secret.

My plan then is this. I shall in a suitable locality erect a light tower about one hundred and fifty feet high. A rope passing over a pulley at the top will serve as a sort of kite string. It will be so counterbalanced that when the rope is drawn out one hundred & fifty feet it will sustain a
pull equal to the weight of the operator and apparatus or nearly so. The wind will blow the machine out from the base of the tower and the weight will be sustained partly by the upward pull of the rope and partly by the lift of the wind. The counterbalance will be so arranged that the pull decreases as the line becomes shorter and ceases entirely when its length has been decreased to one hundred feet. The aim will be to eventually practice in a wind capable of sustaining the operator at a height equal to the top of the tower. The pull of the rope will take the place of a motor in counteracting drift. I see, of course, that the pull of the rope will introduce complications which are not met in free flight, but if the plan will only enable me to remain in the air for practice by the hour instead of by the second, I hope to acquire skill sufficient to overcome both these difficulties and those inherent to flight. Knowledge and skill in handling the machine are absolute essentials to flight and it is impossible to obtain them without extensive practice. The method employed by Mr. Pilcher of towing with horses in many respects is better than that I propose to employ, but offers no guarantee that the experimenter will escape accident long enough to acquire skill sufficient to prevent accident. In my plan I rely on the rope and counterbalance to at least break the force of a fall.
My observation of the flight of buzzards leads me to believe that they regain their lateral balance, when partly overturned by a gust of wind, by a torsion of the tips of the wings. If the rear edge of the right wing tip is twisted upward and the left downward the bird becomes an animated windmill and instantly begins to turn, a line from its head to its tail being the axis. It thus regains its level even if thrown on its beam ends, so to speak, as I have frequently seen them. I think the bird also in general retains its lateral equilibrium, partly by presenting its two wings at different angles to the wind, and partly by drawing in one wing, thus reducing its area. I incline to the belief that the first is the more important and usual method. In the apparatus I intend to employ I make use of the torsion principle. In appearance it is very similar to the "double-deck" machine with which the experiments of yourself and Mr. Herring were conducted in 1896-7. The point on which it differs in principle is that the cross-stays which prevent the upper plane from moving forward and backward are removed, and each end of the upper plane is independently moved forward or backward with respect to the lower plane by a suitable lever or other arrangement. By this plan the whole upper plane may be moved forward or backward, to attain longitudinal equilibrium, by moving both hands forward or backward together. Lateral equilibrium is gained by moving one end more than the other or by moving them in opposite directions. If you will make
a square cardboard tube two inches in diameter and eight or ten long and choose two sides for your planes you will at once see the torsional effect of moving one end of the upper plane forward and the other backward, and how this effect is attained without sacrificing lateral stiffness. My plan is to attach the tail rigidly to the rear upright stays which connect the planes, the effect of which will be that when the upper plane is thrown forward the end of the tail is elevated, so that the tail assists gravity in restoring longitudinal balance. My experiments hitherto with this apparatus have been confined to machines spreading about fifteen square feet of surface, and have been sufficiently encouraging to induce me to lay plans for a trial with [a] full-sized machine.

My business requires that my experimental work be confined to the months between September and January and I would be particularly thankful for advice as to a suitable locality where I could depend on winds of about fifteen miles per hour without rain or too inclement weather. I am certain that such localities are rare.

I have your Progress in Flying Machines and your articles in the Annuals of '95, '96, & '97, as also your recent articles in the Independent. If you can give me information as to where an account of Pilcher's experiments can be obtained I would greatly appreciate your kindness.
Yours truly,
Wilbur Wright

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The author is an airline pilot, flight instructor, and adjunct college professor teaching aviation ground schools. He holds an ATP certificate with ERJ-145 and DHC-8 type ratings, as well as CFI, CFII, MEI, AGI, and IGI certificates, and is a Master-level participant in the FAA's WINGS program and a former FAASafety Team representative. He is on Facebook as Larry the Flying Guy, has a Larry the Flying Guy YouTube channel, and is on Twitter as @Lairspeed.

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Wednesday, August 2, 2017

I would kill to learn to fly

Fortunately, today we don't have to be willing to kill to learn to fly. However, in 1893—ten years before the Wright Brothers would make history in Kitty Hawk, North Carolina—a suggestion was made to that effect. Enjoy this little snippet from the Proceedings of the International Conference on Aerial Navigation, which took place in August of 1893:


Discussion by Professor Todd, of Amherst College.

A friend suggest that criminals, in lieu of treatment by hanging or electrocution, be detailed for duty on flying-machines for the common cause of science and humanity. A man convicted of slaughtering his wife, for example, instead of being forced to edify a handful of curious onlookers with the ghastly spectacle of capital punishment, might be permitted first to receive the coaching of some expert in aerodromics; then, on the day set for public exhibition, if both machine and aviator go to smash, well and good—the criminal would have had to suffer death anyway, and the builder of the machine would feel compensated by the opportunity for testing his device; while if the trial succeeded, the gain to the art of flight may be enormous, and the culprit will come down presumably frightened enough to choose a life of virtue forever thereafter.

Next week, I'll go into "one of the most remarkable letters in the history of science" as the unknown from nowhere Wilbur Wright drops a line to the eminent and already-successful Octave Chanute, beginning a rich and fruitful relationship. See you next Wednesday!

Like Larry the Flying Guy on Facebook:





The author is an airline pilot, flight instructor, and adjunct college professor teaching aviation ground schools. He holds an ATP certificate with ERJ-145 and DHC-8 type ratings, as well as CFI, CFII, MEI, AGI, and IGI certificates, and is a Master-level participant in the FAA's WINGS program and a former FAASafety Team representative. He is on Facebook as Larry the Flying Guy, has a Larry the Flying Guy YouTube channel, and is on Twitter as @Lairspeed.

It takes hours of work to bring each Keyboard & Rudder post to you. If you've found it useful, please consider making an easy one-time or recurring donation via PayPal in any amount you choose.