Airframe Essay Research Paper I am interested

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Airframe Essay, Research Paper I am interested in aircraft, especially airplane engines and structure. I have studied for five years in Japan about aviation maintenance at my high school and my college which have aeronautical engineering departments. Needless to say, I am majoring in the aviation maintenance technology. Aircraft are eminently related to physics. I therefore chose this book, gAirframe h. I think that a person who is interested in aviation would feel interested in this book. I have already studied about some flight dynamics in Japan. I am therefore going to write about lift and a stall, wing curvature, axis of an airplane in flight, and my doubt in the book. The book gives an example of an airplane bound from Hong Kong to Dallas, TPA 545, which stalled on its

way to Dallas. The circumstance was that the plane suddenly descended and went up, then it stalled and went down again. However, the pilots of the plane recovered the airplane fs balance and altitude, and the airplane made an emergency landing at Los Angeles airport. I am going to write about the reason why airplanes can fly before I write about a stall, because it is easy to understand a stall when the physics of flight are understood. Airplanes can fly by making use of lift. Air usually flows are both the upper and lower wing fs surfaces. There are differences in airspeed and air pressure between air flowing over the upper side and air flowing under the lower side of a wing. The air flowing over the upper side is faster than the opposite sides air, and the air pressure on upper

side is lower than the opposite air pressure. The power to lift up, which is called lift, therefore acts on the wing, and the phenomenon is known as Bernoulli fs principle. These are the reasons why airplanes can fly. A stall is caused by exfoliation of air on a wing. I think that there is some possibility of any airplane stalling from this phenomenon. In my opinion, the airplane was falling for some reason or other, then it climbed steeply to regain its altitude. However, its rise angle was too sharp, therefore it stalled. If a wing takes a high angle, the air flowing the upper side of the wing comes off the wing and makes curls of air. This makes drag to the airplane. In that case, the wing cannot make lift and then the plane falls down. The phenomenon is called a stall. Why

airplanes can fly relates to the lift and the amount of curvature of a wing. I have already mentioned the lift. I am therefore going to write about the amount of curvature of a wing. I think that many people who have flown planes or been at airports have seen that when an airplane takes off or lands, the back of its wings, which is known as a flap, is down. The wings can make the lift while the airplane is flying at high speed. However, the airplane cannot reach the speed that its wing needs to make the enough lift when it takes off and lands. The airplane therefore needs to increase the amount of curvature of its wing to create enough lift. A wing which has a greater curvature can make lift more than a smaller curvature at low speed. However, the wing of greater curvature is

disadvantageous at high speed because it makes drag. Therefore, the airplane puts its flap down when it takes off and lands and it puts its flap up when it flies at high speed. The investigators mentioned in the book who were trying to find the cause of the trouble referred to pitching rolling, and yawing. These motions are very interesting to me. I think that land and marine transportation such as cars, trains, and surface ships have only yawing movement. I think that only aircraft can make various moves by using rolling, pitching, and yawing. Whenever an attitude of an airplane changes in flight, the airplane will rotate about one more of the three axes. Acrobatic airplanes and fighters are designed for making quick turns more than passenger and cargo planes. Motion about