The Physics behind Flying Airplanes There are several aspects involved in the dynamics of airplane and how they become airborne. This report will address the main physics involved and mathematic formulae that prove how airplanes get above the ground from a small fighter jet to a massive Boeing 747. The necessities involved in keeping there massive weights in the air and the extreme forces needed to land these airplanes and bring them to a halt will also be explored. Firstly‚ the formula F
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OThe Physics of Airplanes Background: At any given moment‚ roughly 5‚000 airplanes crisscross the skies above the United States alone‚ amounting to an estimated 64 million commercial and private takeoffs every year (source: NATCA). Considering the rest of the world ’s flight activity‚ the grand total is almost incalculable. In order to understand how airplanes fly‚ we must break down the parts of an airplane and understand the physics behind the airplanes most important components: the engine/propeller
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Paper Airplanes Project Design Plan: * I want to know what type of paper airplane model will fly the farthest. I believe airplane design is very important when trying to see how far a paper airplane will fly. The different shape and narrowness or width as well as weight distribution are all factors in flight distance. So if I have a narrow paper airplane‚ a very wide one‚ and one in between‚ which on will fly the farthest? * The relevance of this experiment is similar to understanding
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and Wilbur Wright conduct the first actual flight from the ground using engine power in Kitty Hawk‚ N. C. These events paved the way (satirically put) for numerous improvements to be made. Generally speaking and contrary to popular belief‚ airplanes don’t float on the air‚ they’re sucked up into it. This reason is known as Bernoulli’s Principle. It says: "...as air travels faster [than surrounding air] across a surface‚ the air pressure against it is reduced...". By curving the top of an airplane’s
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Physics Behind The Theory of special relativity And Related Concepts RESEARCH PAPER Abstract: Prior to albert Einstein’s theory of special relativity there was always an idea about relativity. Through Galilean transformations‚ which worked perfectly with the newton’s laws of motion‚ people had formed a vague idea that all motion in this world
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of children enjoy making paper airplanes. A lot of adults do‚ too. Whether you are a kid‚ or just a kid at heart‚ you too can learn to make good paper airplanes. In time‚ you too will learn to make paper airplanes‚ on airplanes paper‚ featuring paper airplane designs‚ with excellent paper airplane instructions‚ and create the best paper airplane. Difficulty: Moderately Easy Instructions Things You’ll Need: Paper A computer The internet 1. Get a sheet of paper. All you need to start with
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An orchestral instrument like mine would be the flute because it has two open ends like mine does. The physics behind a flute is that it can either be an open or closed end pipe and it depends on what kind of flute you get. With the harmonics the lower holes are in the flute to shorten the air column to raise the fundamental frequency of the open air column. To make an higher note you can force the air column to sound its second harmonic‚ up an octave from the fundamental.In a flute decreasing
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The Physics behind the Golf Ball One factor that greatly affects the flight and trajectory of a golf ball is the air resistance. People may think that air resistance would make the golf ball slower and drop faster‚ but this is not true. Modern golf balls have adapted to this by having circular shallow depressions‚ also known as “dimples‚” on the ball. This was invented by a English engineer William Taylor in 1908. Unlike other designs‚ the dimple proved to be the most aerodynamically efficient.
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Physics behind roller coasters Energy can be converted from one from to another. When the car is still‚ the energy which is acting on it is GPE (gravitational potential energy). The car starts to accelerate towards the peak. The energy is converted from GPE to Kinetic energy. The car is at the peak. The energy transfers from Kinetic energy to GPE. The car starts to go down. The energy transfers again from GPE to Kinetic energy. There is no kinetic energy when the car is still at the bottom‚ as
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force. Crumple zones also redistribute the force of impact as most of the impacting energy is spent on destroying the hood of the car. Thus‚ almost all of the energy is used up before it hits the passengers. The next paragraph will explain the physics behind crumple
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