Early in the winter of 1905 the Wrights began work on a new machine, incorporating many improvements resulting from their flying experience. They continued to work quietly, and the only news of them that reached the world came from the reports of farmers who lived near the flat-land flying field. Confirmed reports showed that the Wrights had now covered a distance of twenty-four miles in thirty-eight minutes.
THE FIRST AIRPLANE
Many people speak of the Wright Brothers’ first airplane as a flimsy contraption of sticks, cloth, and wire. Although it was indeed built of wood, cloth and wire, it was, like everything else the Wrights built, thoughtfully and painstakingly constructed. Its wings were efficient lifting surfaces and the entire airplane was sound structurally. The main force that went into it was the result of years of sound research in aëronautical science. Orville and Wilbur Wright had solved all the fundamental problems of flight before they built their first powered, man-carrying airplane. They discovered the basic forces that control all heavier-than-air flight: lift, thrust, drag, and weight. Today, little more than forty years after the first flight at Kitty Hawk, those four forces discovered by the Wright Brothers still control the design of every airplane built.
Equally important was their solution of the problem of controlled flight. Their knowledge of the effect of air on the surfaces of the wings helped the Wrights solve the problem of control. By warping the wings they were able to turn the plane to the right or to the left. When a wing-tip was warped downward it increased the lift of the wing, causing it to rise. The opposite wing-tip warped upward lost lift and the plane would fall off toward the low side. The effect was that of dragging one oar of a boat in the water. To aid in turning the plane, the machine was provided with a vertical rudder attached to the lateral control. When the wings were warped, the rudder automatically swung to enforce the turn.
The pilot’s right hand was on the lever which controlled the wing warping and rudder. His left was on the lever which raised and lowered the elevators. The lever at the extreme left also was attached to the elevators, providing dual control. All movements of the controls were in the direction of the desired attitude of the plane.
