Helicopter Fly free essay sample

How do helicopters work? Helicopters are the most versatile flying machines in existence today. This versatility gives the pilot complete access to three-dimensional space in a way that no airplane can. If you have ever flown in a helicopter you know that its abilities are exhilarating! The amazing flexibility of helicopters means that they can fly almost anywhere. However, it also means that flying the machines is complicated. The pilot has to think in three dimensions and must use both arms and both legs constantly to keep a helicopter in the air! Piloting a helicopter requires a great deal of training and skill, as well as continuous attention to the machine. In this article, you will learn about all of a helicopters different capabilities and how its able to do such amazing things! Comparing Modes of Transport To understand how helicopters work and also why they are so complicated to fly, it is helpful to compare the abilities of a helicopter with those of trains, cars and airplanes. We will write a custom essay sample on Helicopter Fly or any similar topic specifically for you Do Not WasteYour Time HIRE WRITER Only 13.90 / page By looking at these different modes of transportation, you can come to understand why helicopters are so versatile! If you have ever been inside of the cab of a locomotive, you know that trains are fairly simple to drive. After all, there are only two directions that a train can travel in forward and reverse. There is a brake to stop the trains travel in either direction, but there is no steering mechanism of any kind on a train. The tracks take the train where it needs to go. Because a train has only two directions in which it can travel, you can drive a train with one hand. A car, of course, can go forward and backward like a train. While you are traveling in either direction you can also turn left or right: To handle the steering, a car uses a steering wheel that the driver can turn clockwise or counterclockwise. It is possible to drive a car with one hand and one foot. Anyone who has taken pilot lessons or looked inside the cockpit while boarding a jumbo jet knows that planes are a lot more complicated to fly than a car is to drive. However, a plane is really only one step away from a car: A plane can move forward and turn left or right. It also adds the ability to go up and down. However, it loses the ability to reverse. So a plane can move in five different directions instead of a cars four directions. The ability to go up and down adds a whole new dimension to a plane, and this dimension is one of the things that makes airplanes different from a car. To control the upward and downward motion of the plane, either a joystick replaces the steering wheel or the steering wheel gains the ability to move in and out (in addition to turning clockwise and counterclockwise). In most planes (but not all), the pilot also has access to two pedals to control the rudder. Therefore, a pilot could fly a plane with one hand and two feet. A helicopter can do three things that an airplane cannot: A helicopter can fly backwards. The entire aircraft can rotate in the air. A helicopter can hover motionless in the air. In a car or a plane, the vehicle must be moving in order to turn. In a helicopter, you can move laterally in any direction or you can rotate 360 degrees. These extra degrees of freedom and the skill you must have to master them is what makes helicopters so exciting, but it also makes them complex. To control a helicopter, one hand grasps a control called the cyclic, which controls the lateral direction of the helicopter (including forward, backward, left and right). The other hand grasps a control called the collective, which controls the up and down motion of the helicopter (and also controls engine speed). The pilots feet rest on pedals that control the tail rotor, which allows the helicopter to rotate in either direction on its axis. It takes both hands and both feet to fly a helicopter! Special Capabilities of Helicopters Helicopters have a number of unique abilities that airplanes do not have. Several of these capabilities are shown in the following videos (if you have a high-speed Internet connection, these videos are quick and fun to watch! . The signature of a helicopter is its ability to hover over one point on the ground. While hovering, a helicopter can also spin on its axis so that the pilot can look in any direction. Another unique feature of a helicopter is its ability to fly backwards. A helicopter can also fly sideways just as easily. Since a helicopter can fly backwards and sideways, it can do a number of interesting tricks. The following video shows a helicopter performing a pirouette, in which it rotates 360 degrees while it travels down a straight line relative to the ground: A helicopter that is flying forward can also stop in mid-air and begin hovering very quickly, as demonstrated in this video: All of these maneuvers are impossible in an airplane, which must fly forward at all times in order to develop lift from its wings How Helicopters Fly You can begin to understand how a helicopter flies by thinking about the abilities displayed in the previous section. Lets walk through the different abilities and see how they affect the design and the controls of a helicopter. Imagine that we would like to create a machine that can simply fly straight upward. Lets not even worry about getting back down for the moment up is all that matters. If you are going to provide the upward force with a wing, then the wing has to be in motion in order to create lift. Wings create lift by deflecting air downward and benefiting from the equal and opposite reaction that results (see How Airplanes Work for details the article contains a complete explanation of how wings produce lift). A rotary motion is the easiest way to keep a wing in continuous motion. So you can mount two or more wings on a central shaft and spin the shaft, much like the blades on a ceiling fan. The rotating wings of a helicopter are shaped just like the airfoils of an airplane wing, but generally the wings on a helicopters rotor are narrow and thin because they must spin so quickly. The helicopters rotating wing assembly is normally called the main rotor. If you give the main rotor wings a slight angle of attack on the shaft and spin the shaft, the wings start to develop lift. In order to spin the shaft with enough force to lift a human being and the vehicle, you need an engine of some sort. Reciprocating gasoline engines and gas turbine engines are the most common types. The engines driveshaft can connect through a transmission to the main rotor shaft. This arrangement works really well until the moment the vehicle leaves the ground. At that moment, there is nothing to keep the engine (and therefore the body of the vehicle) from spinning just like the main rotor does. So, in the absence of anything to stop it, the body will spin in an opposite direction to the main rotor. To keep the body from spinning, you need to apply a force to it. The usual way to provide a force to the body of the vehicle is to attach another set of rotating wings to a long boom. These wings are known as the tail rotor. The tail rotor produces thrust just like an airplanes propeller does. By producing thrust in a sideways direction, counteracting the engines desire to spin the body, the tail rotor keeps the body of the helicopter from spinning. Normally, the tail rotor is driven by a long drive shaft that runs from the main rotors transmission back through the tail boom to a small transmission at the tail rotor. In order to actually control the machine, both the main rotor and the tail rotor need to be adjustable. The following two sections explain how the adjustability works. The Tail Rotor The adjustability of the tail rotor is straightforward what you want is the ability to change the angle of attack on the tail rotor wings so that you can use the tail rotor to rotate the helicopter on the drive shafts axis. The pilot has two foot pedals that control the angle of attack. These two videos let you take a look at the pedals and see how they affect the tail rotor: The Main Rotor A helicopters main rotor is the most important part of the vehicle. It provides the lift that allows the helicopter to fly, as well as the control that allows the helicopter to move laterally, make turns and change altitude. To handle all of these tasks, the rotor must first be incredibly strong. It must also be able to adjust the angle of the rotor blades with each revolution of the hub. The adjustability is provided by a device called the swash plate assembly, as shown in this photograph: The swash plate assembly has two primary roles: Under the direction of the collective control, the swash plate assembly can change the angle of both blades simultaneously. Doing this increases or decreases the lift that the main rotor supplies to the vehicle, allowing the helicopter to gain or lose altitude. Under the direction of the cyclic control, the swash plate assembly can change the angle of the blades individually as they revolve. This allows the helicopter to move in any direction around a 360-degree circle, including forward, backward, left and right. The swash plate assembly consists of two plates the fixed and the rotating swash plates shown above in blue and red, respectively. The rotating swash plate rotates with the drive shaft (green) and the rotors blades (gray) because of the links (purple) that connect the rotating plate to the drive shaft. The pitch control rods (orange) allow the rotating swash plate to change the pitch of the rotor blades. The angle of the fixed swash plate is changed by the control rods (yellow) attached to the fixed swash plate. The fixed plates control rods are affected by the pilots input to the cyclic and collective controls. The fixed and rotating swash plates are connected with a set of bearings between the two plates. These bearings allow the rotating swash plate to spin on top of the fixed swash plate. The collective control changes the angle of attack on both blades simultaneously: The cyclic control tilts the swash plate assembly so that the angle of attack on one side of the helicopter is greater than it is on the other, like this: Hovering in a helicopter requires experience and skill. The pilot adjusts the cyclic to maintain the helicopters position over a point on the ground. The pilot adjusts the collective to maintain a fixed altitude (especially important when close to the ground, as shown in the videos). The pilot adjusts the foot pedals to maintain the direction that the helicopter is pointing. You can imagine that windy conditions can make hovering a real challenge! Relating the Controls and the Swash Plate The following videos help you understand the relationship between the cyclic and collective controls and the swash plate assembly. In general: The collective control raises the entire swash plate assembly as a unit. This has the effect of changing the pitch of both blades simultaneously. The cyclic control pushes one side of the swash plate assembly upward or downward. This has the effect of changing the pitch of the blades unevenly depending on where they are in the rotation. The result of the cyclic control is that the rotors wings have a greater angle of attack (and therefore more lift) on one side of the helicopter and a lesser angle of attack (and less lift) on the opposite side. The unbalanced lift causes the helicopter to tip and move laterally

40 Idioms with First

40 Idioms with First 40 Idioms with First 40 Idioms with First By Mark Nichol Many expressions include the word first, often referring to beginnings or initial experiences. Here is a list of idiomatic phrases featuring the word, and their meanings. 1. First aid: medical care for minor injuries such as mild abrasions, cuts, bruises, and burns 2. First among equals: the sentiment that a leader is merely the premier person among his or her colleagues 3. First base: the first step or stage in a process or procedure, from baseball terminology 4. First blood: referring to the rite of passage of a hunter making a first kill 5. (At) first blush: referring to reconsideration of one’s initial thought 6. First call: the right to priority in use of something 7. First cause: the philosophical concept of the original self-created cause of which all other causes are by-products 8. First chair: the lead musician among those playing a particular instrument in an orchestra (such as first violin) 9. First class: the best category of travel accommodations, or the best in terms of performance or quality 10. First come, first served: the principle that the customer who arrives first is given priority 11. First cousin: a son or daughter of one’s aunt or uncle 12. First crack: the earliest chance or opportunity 13. First dance: the tradition of the guests of honor being the first couple on the dance floor to start a ball or other dance event 14. First dibs: see â€Å"first call† 15. First down: the first in a series of plays in American football after one team takes possession of the ball from the other team 16. First edition: the initial publication of a book 17. First estate: the clergy as the highest of the three orders of society in the Middle Ages and for some time afterward (the others were the nobility and the common people) 18. First floor: the ground floor (in American English usage) or the second floor (in British English usage) 19. First flush (of success): an initial period of achievement (the term is also used technically to refer to the initial runoff of rainwater after a storm) 20. First glance: a superficial examination or review 21. (At) first hand: with direct experience (as an adjective, firsthand) 22. First impression: the initial evaluation of information or an experience, generally before having time to consider or ponder 23. First lady: the wife of a government’s leader 24. First leg: the first part of a journey 25. First light: the earliest part of day 26. First night: the evening of a premiere performance, or the premiere performance itself 27. (In the) first place: in the beginning, or as an initial consideration 28. (Right of) first refusal: the privilege of being able to accept or reject an offer or proposal before anyone else is given consideration 29. (Love at) first sight: the sentiment of an instant romantic connection 30. (The) first step (is always the hardest): the notion that starting a task is the most difficult part 31. (Cast the) first stone: used to refer to hypocritical behavior akin to throwing a stone at someone as punishment for a crime when the thrower may be culpable for the same crime or another one 32. First string: the group of athletes who participate from the beginning an athletic competition, as opposed to players who may substitute for first-string teammates at some point; by extension, the best among any group 33. (Don’t) know the first thing about: the model for an expression stating that someone is unacquainted with even the basics of a certain procedure or topic 34. First things first: refers to the importance of considering the relative priority of steps 35. First-timer: someone engaging or participating in some activity the person has not done before 36. First water: the highest quality, especially in gems but also said figuratively of people of high character 37. First world: the developed, industrialized nations 38. (If at) first you don’t succeed (try again): the sentiment that one should persist after initial failure 39. Ladies first: a sentiment that, according to proper etiquette, females should have priority in passing through a doorway or into another area 40. Shoot first (and ask questions later): referring to the supposed wisdom, in a confrontation, of disabling a potential adversary first and then ascertaining whether the person is in fact a foe Want to improve your English in five minutes a day? Get a subscription and start receiving our writing tips and exercises daily! Keep learning! Browse the Expressions category, check our popular posts, or choose a related post below:20 Words with More Than One Spelling20 Words Meaning "Being or Existing in the Past"Quiet or Quite?