Produced by Dianne Bean

A HISTORY OF AERONAUTICS

by E. Charles Vivian

FOREWORD

Although successful heavier-than-air flight is less than two decades old, and successful dirigible propulsion antedates it by a very short period, the mass of experiment and accomplishment renders any one-volume history of the subject a matter of selection. In addition to the restrictions imposed by space limits, the material for compilation is fragmentary, and, in many cases, scattered through periodical and other publications. Hitherto, there has been no attempt at furnishing a detailed account of how the aeroplane and the dirigible of to-day came to being, but each author who has treated the subject has devoted his attention to some special phase or section. The principal exception to this rule--Hildebrandt--wrote in 1906, and a good many of his statements are inaccurate, especially with regard to heavier-than-air experiment.

Such statements as are made in this work are, where possible, given with acknowledgment to the authorities on which they rest. Further acknowledgment is due to Lieut.-Col. Lockwood Marsh, not only for the section on aeroplane development which he has contributed to the work, but also for his kindly assistance and advice in connection with the section on aerostation. The author's thanks are also due to the Royal Aeronautical Society for free access to its valuable library of aeronautical literature, and to Mr A. Vincent Clarke for permission to make use of his notes on the development of the aero engine.

In this work is no claim to originality--it has been a matter mainly of compilation, and some stories, notably those of the Wright Brothers and of Santos Dumont, are better told in the words of the men themselves than any third party could tell them. The author claims, however, that this is the first attempt at recording the facts of development and stating, as fully as is possible in the compass of a single volume, how flight and aerostation have evolved. The time for a critical history of the subject is not yet.

In the matter of illustrations, it has been found very difficult to secure suitable material. Even the official series of photographs of aeroplanes in the war period is curiously incomplete' and the methods of censorship during that period prevented any complete series being privately collected. Omissions in this respect will probably be remedied in future editions of the work, as fresh material is constantly being located.

E.C.V. October, 1920.

CONTENTS

Part I--THE EVOLUTION OF THE AEROPLANE I. THE PERIOD OF LEGEND II. EARLY EXPERIMENTS III. SIR GEORGE CAYLEY--THOMAS WALKER IV. THE MIDDLE NINETEENTH CENTURY V. WENHAM, LE BRIS, AND SOME OTHERS VI. THE AGE OF THE GIANTS VII. LILIENTHAL AND PILCHER VIII. AMERICAN GLIDING EXPERIMENTS IX. NOT PROVEN X. SAMUEL PIERPOINT LANGLEY XI. THE WRIGHT BROTHERS XII. THE FIRST YEARS OF CONQUEST XIII. FIRST FLIERS IN ENGLAND XIV. RHEIMS, AND AFTER XV. THE CHANNEL CROSSING XVI. LONDON TO MANCHESTER XVII. A SUMMARY--TO 1911 XVIII. A SUMMARY--TO 1914 XIX. THE WAR PERIOD--I XX. THE WAR PERIOD--II XXI. RECONSTRUCTION XXII. 1919-1920

Table of contents (by pages)

• 1: A History of Aeronautics by Marsh and Vivian
• 2: The first dirigibles iii
• 3: The legend of Icarus and Daedalus
• 4: The pigeon of Archytas almost certainly existed
• 5: Is that of the Saracen of Constantinople
• 6: As early as the thirteenth century Roger Bacon
• 7: He may have soared over Thrasimene
• 8: But da Vinci had to find it out
• 9: A certain Paolo Guidotti of Lucca
• 10: Borelli was a versatile genius
• 11: Resist this compression by their elasticity
• 12: By flapping with the wings attached
• 13: Borelli dived down into first causes
• 14: As the water which filled the vessel weighed 640 ounces
• 15: Lana antedated the modern propeller
• 16: Besnier placed the rods on his shoulders
• 17: His flying machine was to contain
• 18: This single pterophore would lift him vertically
• 19: Meerwein deserves a place of mention
• 20: When Cayley came to study and record
• 21: Cayley maintained his study of aeronautical matters
• 22: Practically contemporary with Cayley was Thomas Walker
• 23: That of the condor not less than four stone
• 24: After considering Degen and all his works
• 25: A History of the Charvolant or Kite carriage
• 26: The machine will immediately be propelled downwards
• 27: With an attorney named Colombine
• 28: Intended to raise the sum of L2
• 29: Colombine did some advertising
• 30: Leaving Stringfellow to continue experimenting alone
• 31: Mr Stringfellow repaired to Cremorne
• 32: Nadar took to ballooning as the means of raising money
• 33: If a man with parachute weigh together 143 lbs
• 34: Chanute draws from a still rarer book
• 35: As well as that of Le Bris and his machine
• 36: Here he assembled his apparatus at the bottom of the quarry
• 37: And especially Hureau de Villeneuve
• 38: The attraction of the helicopter lies
• 39: Contemporary with Castel was Professor Forlanini
• 40: Penaud and Moy were followed by Goupil
• 41: With the solitary exception of Le Bris
• 42: When Pilcher visited him in the spring of 1895
• 43: Close to where Lilienthal lived
• 44: He laid the foundations on which Pilcher
• 45: ' as Pilcher named his first glider
• 46: Pilcher resolved on a second trial
• 47: Just before Lilienthal was killed
• 48: Five full sized gliders were tried out
• 49: Chanute waxed enthusiastic over the possibilities of gliding
• 50: Chanute came to the conclusion that any young
• 51: One of my aeronauts and myself
• 52: Ader repeated the construction
• 53: If Ader actually did what he claimed
• 54: The Avion then found itself freely supported by its wings
• 55: There was one earlier than Ader
• 56: After the dynamometer test had been completed
• 57: Entitled the Langley Memoir on Mechanical Flight
• 58: He harked back to the Stringfellow engine of 1868
• 59: But the flights of May 6th and November 28th
• 60: Working under Professor Langley
• 61: Being pointed up the Anacostia towards the Navy Yard
• 62: But Langley steadfastly refused it
• 63: The Wright family had moved to Dayton
• 64: The age of flying machines will have arrived
• 65: Under the presidency of Octave Chanute
• 66: Responding quickly to the slightest motion of the rudder
• 67: Even to small movements of the rudder
• 68: As measured by Richards' anemometer
• 69: The tangential force still came within 1 lb
• 70: And the duration of the flight greatly prolonged
• 71: When gliding operators have attained greater skill
• 72: When I came to know Orville better
• 73: The propellers turning sidewise
• 74: ' said Wilbur Wright concerning the achievement
• 75: Knowing that longer flights had been made with airships
• 76: In balancing and steering an aeroplane
• 77: And Ferber resumed his exhibition flights
• 78: And in the design of the undercarriage
• 79: Of these Esnault Pelterie's was a monoplane
• 80: At the opening of the Juvisy aero aerodrome in May of 1909
• 81: With the standardising of the machine
• 82: Speaking before the Aeronautical Society in 1908
• 83: Who flew with Cody for over two miles
• 84: Together with a second triplane
• 85: Who took his flying brevet at Brooklands in November of 1910
• 86: With Lieutenant Selfridge as a passenger
• 87: And Paulhan reached a height of 230 feet
• 88: Latham was already in the air directly over Farman
• 89: The public loved most Lefebvre
• 90: While at Blackpool only 115 miles were flown
• 91: Louis Bleriot ranks before Farman in point of time
• 92: Bleriot had no means of telling direction
• 93: Crossed from France to England on a Bleriot monoplane
• 94: Before nightfall Paulhan landed at Lichfield
• 95: With a first flight of 6 seconds on a Bleriot monoplane
• 96: 560 feet on an Antoinette at Mourmelon on December 1st
• 97: For on January 4th Leon Delagrange
• 98: Maurice Tabuteau flew across the Pyrenees
• 99: 010 miles on a Bleriot monoplane
• 100: And the Deperdussin monoplanes third
• 101: The landing demands were rather exacting
• 102: Deperdussin for the French built Deperdussin monoplane
• 103: De Havilland took a passenger to a height of 10
• 104: In any record of aeronautical achievement
• 105: With Mr Curtiss at the steering wheel
• 106: Got on the German pilots' nerves
• 107: Sikorsky also designed several smaller machines
• 108: Once the Fokker had been mastered
• 109: Seaplane pilots were bombing specialists
• 110: And then returned to his aerodrome to get his wound dressed
• 111: There was a 225 horsepower Benz which was very popular
• 112: The improvement in anti aircraft devices went on
• 113: 380 mile stage to Horta in the Azores
• 114: Piloted by Captain John Alcock
• 115: Between Berlin and Breslau 500 marks
• 116: Almost immediately after the trial flight began
• 117: The aeroplane is primarily a war machine
• 118: Such as Lilienthal and Chanute
• 119: On returning to Dayton towards the end of 1901
• 120: This third glider contained 305 square feet of surface
• 121: To make the machine automatically stable laterally
• 122: Fitted a wheeled undercarriage
• 123: The Voisin as developed in the Farman and Wright machines
• 124: Were of the ordinary monoplane design
• 125: Both longitudinally and laterally
• 126: In lightness and ease of fitting into the nose of a fuselage
• 127: And performances were still low
• 128: More common in monoplanes than biplanes
• 129: So far as seaplanes were concerned
• 130: ' Reconnaissance Experimental
• 131: The Paris Aero Salon of December
• 132: Every machine was of the biplane tractor type
• 133: The twin engine Handley Page biplane was produced
• 134: ' stands as one of the first great exponents of aerostatics
• 135: Joseph and Stephen Montgolfier
• 136: The Montgolfiers were undoubtedly first to send up balloons
• 137: But d'Arlandes got the royal consent to accompany Rozier
• 138: Taking with him an American doctor named Jeffries
• 139: Zambeccari being rescued by fishermen
• 140: A note on ballonets or air bags
• 141: This development of the Montgolfier type never got a trial
• 142: As indispensable to a dirigible
• 143: The Tissandier abandoned their experiments
• 144: Wolfert determined to carry on with his experiments
• 145: Merely proved the dirigible a failure
• 146: He reached the Eiffel Tower in 9 minutes and
• 147: On the same day that the airship leaves Paris
• 148: Experiment began with the Lebaudy brothers
• 149: Later Parsevals were constructed of stream line form
• 150: And the dirigible jumped immediately to 1
• 151: Friedrichshafen being reached at about 7
• 152: Chief among them was the Schutte Lanz
• 153: The Lebaudy was brought out for a flight
• 154: Fuselage with engine and geared down propeller
• 155: Petrol tanks were placed inside the envelope
• 156: A 23X type followed on the 23 class
• 157: In addition to eight tons of petrol
• 158: 33 landed safely at Mineola Field at 9
• 159: Together with the commercial airship 'Bodensee
• 160: Germany alone had kite balloons
• 161: And kite balloons the parachute is an essential
• 162: Having built but the one famous dirigible
• 163: I constructed a species of injector
• 164: High speed petrol engine for motor car work
• 165: Coming to the Lebaudy brothers and their work
• 166: Working on a common crankshaft
• 167: Except as regards the method of ignition
• 168: Having four vertical cylinders
• 169: Even the lubrication system was duplicated
• 170: The eight cylinder Mercedes Daimler engine
• 171: In the space above the crankshaft
• 172: The cylinders were of cast iron
• 173: The first experimental aero engine
• 174: Connecting rods and crankshaft are of steel
• 175: When Manly designed his radial engine
• 176: With this 200 horse power Anzani
• 177: The crankshaft has a single throw
• 178: Certain American radial engines were made previous to 1914
• 179: The inventor of the Gnome rotary aero engine
• 180: The crankshaft of the engine was made of nickel chrome steel
• 181: In 1913 the Gnome Monosoupape engine was introduced
• 182: Which also acts as the inlet valve to the cylinder
• 183: One being attached to the end of the crankshaft
• 184: Like the Darracq four cylinder type
• 185: Horizontally opposed Dutheil Chambers engine
• 186: Charging of the cylinder occurs
• 187: The scavenging of the power cylinder
• 188: Assists in expelling the exhaust gases from the cylinder
• 189: And ball bearings were fitted to the crankshaft
• 190: The Oberursel and the Stahlhertz
• 191: A dropped forged steel piston head
• 192: And one delivers to the crankshaft
• 193: A single carburettor fed all three cylinders
• 194: In radial and probably any aero engine design
• 195: The men necessary to prepare the grounds at Satory
• 196: Ader used all its motive power
• 197: He tried to use the rudder energetically
• 198: Annex to the Report of October 21st
• 199: Orville Wright and Wilbur Wright
• 200: The threads constituting the diagonal members
• 201: When two aeroplanes are employed
• 202: Into angular relations with said normal planes
• 203: Their pivots being indicated at 24
• 204: Their front ends being united to the struts 28
• 205: The same consisting of three stiff crosspieces or sticks 32
• 206: With two normally parallel aeroplanes
• 207: With parallel superposed aeroplanes
• 208: Above or below the normal plane thereof
• 209: With two superposed and connected aeroplanes