History of the HL-20 Essay Example

History of the HL-20 Essay Introduction In Aeronautics industries, the simulation does the cardinal function, because of the complexness. When we do the testing by paradigm it takes considerable clip, rather expensive, and hard to look into the consequences while change the parametric quantities. The ballistic capsule landing has an history with considerable practical and analytical job because of the unpredictable external-environmental parametric quantities i.e. conditions, air current. The HL 20 is the NASA designed theoretical account for a manned spaceplane, known as Crew Emergency Return Vehicle ( CERV ) or Personal Launching System ( PLS ) . The construct of the PLS has been developed to transport six to eight work forces to infinite stations.A We will write a custom essay sample on History of the HL-20 specifically for you for only $16.38 $13.9/page Order now We will write a custom essay sample on History of the HL-20 specifically for you FOR ONLY $16.38 $13.9/page Hire Writer We will write a custom essay sample on History of the HL-20 specifically for you FOR ONLY $16.38 $13.9/page Hire Writer Entire length - 8.9 m ( 29 pess )Maximal Diameter-wingtips - 7.2m ( 23.5 pess )Entire habitable volume - 16.3 M3Entire mass -A 10 884 kilogramEntire warhead - 545 kilogram hypertext transfer protocol: //ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19980169231_1998082126.pdf A lifting organic structure is fundamentally a wingless vehicle that flies due to the lift generated by the form of its fuselage. researchersA including Alfred Eggers at the NASA Ames Research Center conducted early air current tunnel experiments find that half of a rounded olfactory organ -cone form that was level on top and rounded on underside could bring forth Lift Drag ratio of approximately 1.5 to 1. Literature Survey History of the HL-20 After the second universe war the powerful states were viing to rule the revolution of the infinite universe, output in 1969 the America attained their first measure at Moon. After revolution in infinite universe, the demands to utilize the ballistic capsules are quickly increased in last decennaries. In 1983, Vehicle Analysis Branch began the probe of BOR little infinite plane being orbited several times by the Soviets get downing in 1982 and recovered at in the Indian Ocean and Black sea. During the recovery operations of the infinite plane in the Indian ocean, an Australian P-3 Orion aircraft obtained exposure of the vehicle both drifting in the H2O and being hauled aboard the recovery ship.A [ 2 ] . this provided the valuable penetrations into the form, weight, and centre of gravitation of the vehicle. Based on this information, little air current tunnel theoretical accounts were manufactured and tested by NASA.the consequences demonstrated that, the vehicle had got good Aerodynamic features throughout velocity scope from orbital entry interface to moo supersonic velocities. Wind tunnel trials configuration directional stableness at all velocity from Mach 20, trimmed to maximum L/D with 10 degree elevon warps in subsonic scope. Raising Body Heritage Raising organic structure constructs were proposed for transporting people to and from infinite in late fiftiess. In those yearss NASA Langley Research Center developed a lifting organic structure known as HL 10 it could transport 12 people and be launched on a Saturn IB supporter with about 15000lb of warhead to serve an orbiting infinite station. But the HL-20 design attack was received Dec 10 1992A rivision received Feb 15 1983accepted for the publication Feb 17 1993. [ 1 ] . The NASA Ames Research centre developed the M2-F2 lifting organic structure construct, for this mission whereas the US AirForce developed the X-24 lifting organic structure construct for military purposes.each of these constellations was propelled the extended research and air current tunnel testing. Very get downing of the research periods, the primary ends included the definition of constructs that would be reclaimable and have minimum operational renovation demands, low entry accelerations, fixed geometries, runway set downing capableness, and a lower limit of a once-per-day return capableness to the USA. The specific vehicles ends were the accomplishment of a Lift Drag ratio grater than 1 at hypersonic velocities, high trim-lift coefficient, Lift Drag ratio grater than 4 at subsonic velocities, high volumetric efficiency, inactive stableness and controllability of all velocities and of class compatibility with projected launch vehicle. [ 1 ] . HL 10 Lifting Body The vehicle length was 21.17 pess. The launch weight with propellents was 10 009 pound and the landing weight was 6473 pound, the centre of gravitation scope from 53.14 per centum of the organic structure length for the launch weight constellation to 51.82 per centum for the landing status. From: NASA Reference publication 1332 1994 HL-20 chronologies 1983 January 1-NASA Langley begins surveies taking to HL-20 The vehicle analysis subdivision began probe of the Soviet BOR-4 little theoretical accounts were tested in NASA air current tunnels and demonstrated that the vehicle had good aerodynamic features throughout the velocity scope orbital entry interface to moo supersonic velocities. The Soviet design had a 2400 kilometer cross-range capableness and outstandingly benign thermic profile at peak warming conditions. Therefore Langley adopted it as a baseline for a Crew Emergency Rescue Vehicle to backup or replace the bird after 1986 Challenger accident. 1989 October 1 -Rockwell Begins twelvemonth long contracted survey of HL-20 Rockwell International ( Space System Division ) began a year-long contracted attempt managed by the Langley Research Centre to execute in an in-depth survey of personal Logistics system design and operations with HL-20 construct as a baseline. The infinite plane would supplement the bird in support of the infinite station freedom. 1991 October 1 Lockheed Feasibility surveies of HL-20 Lockheed Advance Development Company began a survey to find the feasibleness of developing a paradigm and operational system. The survey aims were to entree proficient properties, to find flight making demands, and develop cost and agenda estimations. 1991 December 1 HL-20 Mock-up trials completed NASA, North Carolina State University and North Carolina A A ; T University built a all-out theoretical account of the HL-20 for human factors research on the construct. In the terminal, Space station Freedom became the International Space Station. As the initial crew exigency deliverance vehicle, the Russian Soyuz ballistic capsule was selected. However NASA, looking for a higher-capacity option and concern about dependable handiness of the Soyuz in the hereafter, did get down development of the X-38CERV in 1997. The X-38 was nevertheless based on the Johnson construct of parachute-assisted landing, and used the pure -USA X-24 raising organic structure form. History of simulation In last decennaries of the 20th century, AIAA Modeling and Simulation Technical Committee were affecting to develop the aircraft/spacecraft theoretical accounts. When they developed the simulations they had identified and include the basic simulation parametric quantities for airframe theoretical account such as map tabular arraies, block diagram, mathematical equation ( nonlinear partial equations ) and verification trial informations to look into the information before shear the information with another modal. The information should be able to construe to the standard format or codification by the internal designer of the simulation. In late ninetiess they developed candidate format to the aerodynamic subdivision of the simulation theoretical account i.e. if want to unclutter or interchange the informations, mathematical equations, definitions and the map tabular arraies are required. When we consider the HL-20 NASA model the aerodynamic theoretical account contains 51 variables such as 168 one and two dimensional tabular array, four breakpoint sets, and sum of 6240 informations point. It defines the end products for six aero dynamic coefficients i.e. Cx, Cy, Cz, Cl, Cm, Cn as a map in angles of onslaught ( AOA ) angle of slide ship, Mach figure, Airspeed and angular organic structure rate. This includes the non additive map as interpolated tabular arraies, switches and absolute value elements in the variable definitions. From Evaluation of a Candidate Flight Dynamics Model Simulation Standard Exchange Format E. Bruce Jackson*NASA Langley Research Center, Hampton, VA 23681 Bruce L. HildrethaˆSAIC, Lexington Park, MD 20653 Brent W. Yorkaˆ?Naval Air Systems Command, Patuxent River MD 20670 and William B. ClevelandAÂ §Northrop Grumman Information Technology, Moffett Field, CA 94035 Chapter 2 Theoretical analysis Modeling premises and restrictions The simulation of the ballistic capsule system is complicated system, so for easy work and analysis we assume the theoretical account or geometry of HL 20 as follows. HL 20 airframe is laterally symmetrical The airframe consists of three type of motion during winging i.e. the pitch motion, Yaw motion, and Roll motion. If we do nt pattern laterally symmetrical we are non able to pull off the steady province on turn overing motion. It makes more complicate. Therefore we assume the airframe is laterally symmetrical. It s incompressible i.e. the squeezability effects can be negligible The Mach figure is an of import parametric quantity in flight mechanics ; it can be calculated by the undermentioned equation Harmonizing above equation the Mach figure is depended on fluid speed. If the fluid can be compressible, the encircled fluid of the airspeed index speed ca nt be the same as outside fluid speed. And besides the squeezability can change with regard to the velocity of the airframe. Therefore we assume the fluid is incompressible. The airframe is stiff and consists of steady mass The airframe contains three chief constituents such as fuselage, wings, tail. If the airframe is non stiff the constituents can deform from the original form. So the minutes of the airframe can be varied due to the distortion. If they do nt dwell steady mass the force can change during the gesture of the airframe. It makes the fluctuation in the inactiveness. Therefore we assume that, the theoretical account is stiff and consists of steady mass. The control effectivity is varied nonlinearly with the angle of onslaught AOA, and linearly with the Angle of Deflection he environmental theoretical account is non-linear 6 grade of freedom. When we consider the ballistic capsule, there are four forces moving on it. By seting them we can command the airframe and glide it. Raising force The lifting force is produce by the dynamic consequence of the air moving on the aerofoil i.e. due to the force per unit area difference Bernoulli s principal. It acts perpendicular to the ballistic capsule s way through the Centre of lift, which depends on the form of the ballistic capsule and airspeed. If the airframe flies in the vacuumed infinite the lifting force is zero. Because the denseness tends to zero. Thrust force The forward force green goodss by the power works or propeller/rotor. It opposes or overcomes the force of drag.A As general regulation, it acts parallel to the longitudinal axis. For ballistic capsule traveling the thrust force must be exerted and be greater than drag force. The ballistic capsule has to travel until equalise the retarding force force by thrust force to keep the changeless speed.A The thrust force can be calculated by the undermentioned equation. If airframe flies in the vacuumed part there is no thrust force. Because mass of the air peers to zero. Drag force The retarding force force is a clash force, which is generated by the interaction and contact of the solid organic structure with fluid. We can cut down the retarding force force by theoretical account the appropriate form of the airframe. Drag force can be calculated by the undermentioned equation. Centre of gravitation By and large the ballistic capsule is design like a Kite, so we can anaysis the place of the gravitation by analysis the Centre of the gravitation of the kite. The merchandise of Centre of gravitation and weight peers the amount of the merchandises of the constituent weights and distances. i.eA W*cg= ? W*d So W*cg =WL*dL+ WF*dF+WW*dW+WU*dU The above diagram illustrates the mass distribution of the ballistic capsule. So, in order to alter the angle of falling we can utilize the weight favorably i.e. which associates the trust force during the landing but during the raising it acts on opposite way of the ballistic capsule path.A The co-ordinate system When we consider the infinite trade gestures, the gesture is calculated and guided harmonizing three sets of co-ordinate system. The air current axis o X axis positive in the way of the on-going air o Y axis positive to right ofA X axis perpendicular o Z axis positiveA downwards, perpendicularA to X-Y plane Inertial axis o X axis positive forward through olfactory organ of the aircraft/spacecraft o Y axis positive to compensate of X axis o Z axis positiveA downwards, perpendicularA to X-Y plane Earth axis o X axis positive in way of north o Y axis positive in the way of the East o Z axis positive towards the Centre of the Earth The communicating system Basic mechanism The ballistic capsule landing is a broad scope of analysis with several parametric quantities. Some of them related with ballistic capsule elements and radio detection and ranging system, some parametric quantities related with atmosphere/ environmental factors and some are related with the control system from the ground/ infinite station. The following tabular array illustrates the parametric quantities relationship. The ballistic capsule consists of several systems to observe the alterations in parametric quantities. Inactive Pressure system The ALT metre is functioned by the inactive force per unit area system and besides the airspeed index is functioned by the inactive force per unit area system and pilot force per unit area system. The inactive force per unit area system is placed opened to the outside of the airframe to feel the atmosphere force per unit area. The narrow gap is described as inactive port. This system has to fixed really accurately with the airframe, i.e. we have to see the all possible angle of onslaught and do certain the inactive force per unit area is really near to the atmosphere force per unit area. ALT metre The ALT metre is used to mensurate the height of the airframe. The ALT metre is calibrated to demo the force per unit area straight as an height above average sea degree harmonizing the International Standard Atmosphere ISA. The attitude Indicator It is besides known as unreal skyline, which gives the direction about the comparative attitude to the skyline. Harmonizing this information we can state that, whether the wings are flat and if the aircraft olfactory organ is indicating above or below to horizon. The airspeed index The airspeed index gives the airspeed. It functions by the inactive force per unit area and the pilot force per unit area system. The airspeed index besides calibrate for the sea degree atmosphere. When the temperature/pressure combination yields the denseness height higher than sea degree, the airspeed indicates the lower airspeed.A In other manus, if the denseness height is less than sea degree the airspeed index detects the faster airspeed. True airspeed True airspeed can be defined by, the comparative velocity of the airframe with regard to the air mass. The pilotage system is worked by garnering the true velocity and some other informations. The true airspeed can be calculated by the undermentioned equation. Indicated airspeed The airspeed index ASI works harmonizing the Pitot tubing rule. It reads straight by the airspeed index and besides it is straight related with graduated airspeed. Calibrated airspeed The airspeed index has got two types of mistakes such as in instrument mistake, and place mistake. After correct those mistakes, the airspeed index will demo the new value, which is called graduated airspeed. The CAS can be calculated by the undermentioned equation. True height The true height is measured by the airframe from average sea degree, but unluckily the airframe ca nt mensurate the true height. It can mensurate merely indicated height. During the landing i.e. attack really near to anchor the indicated latitude is really near to the true height. Indicated height The indicated height is straight measured by the ALT metre of the airframe. It is utile to keep the terrain/obstacle clearance and keep the perpendicular separation to following airframe that passes over the airframe. Pressure height When the airframe flies above 18000 pess with high velocity ( subsonic velocity or hypersonic velocity ) , acquiring up-to-date ALT metre scene is non practically possible. And besides we ca nt presume the Indicated height is same as true height due to the high difference between them by the high above describing Stationss. So the force per unit area altitudeA A does non incorporate terrain, it consists merely perpendicular separation. Absolute height The absolute height means the tallness of the airframe from the land. If the airframe flies over the coastal country the absolute height is same as true height. But if the airframe flies over the hill the absolute height is changing with the fluctuation of the tallness of mountain. This is really of import to forestall from the airframe clangs with land. Density height The lifting force is depends on the denseness atmosphere, during the winging the the denseness is changing with the height alterations. And besides the engine wants O for the burning, if the denseness of air decreases the concentration of the O in air besides lessening. So it makes the Chemically Oxygen Demand ( COD ) consequence, Yield the engine generates less power so the thrust force can be decreased. So the denseness height is used to detect and keep the air denseness of encircled air. From hypertext transfer protocol: //www.meretrix.com/~harry/flying/notes/altitudes.html The impetus angle The impetus angle means the angle between longitude and the way of the airframe. The impetus index measures the impetus angle. The header Index The header index is besides known as directional gyro or gyro compass. It displays the aircraft header belongs the geographical North. The horizontal Situation Indicator can be replacing to the header index. Turn index The bend index measures the way of turnings and the rate of turnings. The quality of bend is besides can be discernible by utilizing the bend index. Slats Slate is a instrument fixed at the aerodynamic surface of the taking border in wings. It used to alter the wings shape unnaturally to do higher angle of onslaught. Slates contribute the safety and decelerate taking off or landing. Static Air Temperature The inactive air temperature is measured by specially modified temperature mounded on the airframe surface. The investigation is designed to convey the air to rest relation to the airframe i.e. the velocity of the air is same as airframe s velocity. But practically the air is seemed as tight ( Adiabatic procedure ) . So the entire temperature is bigger than the inactive temperature. The relationship between the inactive temperature and entire temperature is given by the undermentioned equation. Pitch Axial rotation Yaw Basic depressions and Principles During the flying clip the airframe is hold in the air due to the raising force. There are several account for the coevals of the raising force. By and large the proponentsA of the statements belong into two topographic points. Bernoulli s rule Newton s postion Bernoulli s rule The Bernoulli s rules states that addition in the velocity of the fluid occurs at the same time with a lessening in force per unit area or lessening in a fluid s possible energy. The Bernoulli s rule can be applicable for incompressible laminar flow. It can be describes in mathematical signifier as follows. Newton s first low The organic structure at remainder will stay at remainder and a organic structure in a gesture will go on in consecutive line gesture unless subjected to an external applied force. Newton s 3rd low For every action, there is an equal and opposite reaction.

anotated bibliography women in media Essay Example

anotated bibliography women in media Essay Example anotated bibliography women in media Essay anotated bibliography women in media Essay Professor Hall 2 December 2013 Title What is beauty? It is hard to define, yet easy to recognize. This could be why many women struggle to see their own beauty. A main contributor to the lowering self- esteem to women is the unattainable body image produced by the media. When a company creates an advertisement they usually cast good looking people to represent them. When this idea is taken to an extreme with digital restoration and photo shop this can lead to the distortion of peoples self-image. This distortion can turn into disorders like anorexia, bulimia, and body shaming. These unrealistic portrayals of women can have the most effect on young girls because they tend to be very impressionable. Russell stated that 53% of children age 13 are unsatisfied with their bodies and by age 17 it had increased to 78% (Russell). Its sad to think by the age of thirteen girls are thinking about their fgures and are unhappy with how they look. the focus of this paper will be on how media can crucially effect the body image of women and distort how they see themselves. Annotated Bibliography Every day we see an uncountable amount of commercials. The media has a huge nfluence on how we act, what we buy and, even more importantly, what we eat. Many of the actors featured in these influential commercials are most often very thin and attractive. When they portray every day women as a size two they are misleading the watcher into thinking they are overweight. This kind of misinformation can lead to body shaming and eating disorders. I will be exploring how media can distort the self-image of its watchers by using underweight and unrealistic actors. For example, I will compare and contrast the self-image produced by the Victoria Secret ad ampaign as opposed to the self-image produced by Dove in their commercials. In this paper, I am going to show the effects of media on the self-image of the watcher. I will touch on the airbrushing techniques used by the editors, to slenderize the already thin actors, as well as the sexual undertones used in these commercials. I will discuss how these contribute to the watchers distorted body image and insecurities. I am also going to go into the specific effects of these media tactics on children. Children are more impressionable and this means they are at a higher risk of being ffected by these unrealistic commercials. One counter argument I will be addressing is the thought that low self-esteem and bad body image are preexisting and merely enhanced by the media. HAAS, CHERYL J. , et al. An Intervention For The Negative Influence Of Media On Body Esteem. College Student Journal 46. 2 (2012): 405-418. Academic Search Complete. Web. 15 Nov. The authors briefly discuss the effects of media on womens self-image. This scholarly journal then shows data from two different experiments exploring the effects of the media on womens body esteem, sexual attractiveness, and weight concern. This data will be helpful in my paper when I discuss the amount of women affected. I will use this scholarly article for background information about self-esteem, eating disorders, and the media. This connects with the ted talk I found because they both discuss the concept of beauty being in the eye of the beholder. This article talks about how to rectify women self-esteem while in Cameron Russell: looks Arent everything. Believe Me, Im a Model. She shows even beautiful people have their insecurities. Russell, Cameron. Cameron Russell: Looks Arent Everything. Believe Me, Im a Model. TED: Ideas worth Spreading. N. p. , Jan. 2013. Web. 15 Nov. 2013. This ted talk starts out with a very beautiful and thin model standing middle stage. She discusses how being a model is not everything young girls imagine it to be. She exposes the industry from the inside and shows how they had her wearing revealing outfits at the young age of thirteen. She then goes on to explain the insecurities the business brings and how being beautiful does not mean your body image is good. I will use this ted talk to quote her real definition of beauty. Mid-way through the talk Russell states statistics about children and body image; this should be useful in my research paper. I will also use this ted talk to talk about the photo shop used by the media to make women look almost unobtainable. I found a lot of the information in this ted talk relating back to my scholarly article. Concept of airbrushing and the statistics on girls with body insecurities tie this ted talk back to the previous article. Gaillet, Lynee, Abgela Hall-Goodsey, and Jennifer L. Vala. Guide To First Year Writing. Southlake: Fountianhead, 2013. Print. In The Guide To First Year Writing I found many pages to help with the research ortion of this paper. I found pages 81-89 very useful in this respect. Pages I will use for my paper are pages 90 and 91 . The section regarding argument and thesis gave the most information. These pages helped me narrow my topic down into a reasonable thesis to get started. Page 92 helped me plan my counterarguments and helped me make sure I was not undermining my main point. I plan to use a couple quotes in my paper and this chapter helped me correct my format as well as understand the in text citations. This book relates back to my other sources in that it can help me structure my argument and keep on topic.