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A&P Aircraft Mechanic Jobs Oklahoma OK

Aircraft Mechanic Jobs Oklahoma

What's the Job Outlook for A&P Mechanics? Aircraft mechanic jobs in Oklahoma should continue to grow, according to the Bureau of Labor Statistics. Their study suggests that the number of people working in aviation mechanic jobs will increase by 7% between 2008 and 2018.


This growth will be primarily caused by an increase in air traffic due to growing worldwide populations, economies, and increased desire for travel. As the airlines and associated industries expand, the need for A&P Mechanics will go up accordingly. Read more about aviation maintenance technician salaries.

In the coming years, many job openings will be created by retiring A&P Mechanics and others leaving the industry to work in related jobs like auto and diesel repair. If you become an aircraft mechanic, you can rest assured knowing your trade crosses over to many other industries.

A&P Mechanic Jobs in Oklahoma

A&P mechanic jobs are in high demand in Oklahoma. The highest paying aircraft mechanic jobs in Oklahoma are found at the major airlines. As can be expected, competition for these jobs is also huge. However, you're most likely to get a job at a regional airline or discount airline, because these types of carriers are growing quickly. But don't expect the same pay and benefits as the majors.

How to get your license, training requirements, eligibility, and links to more info. To earn your A&P License, you must attend a Federal Aviation Administration (FAA) certified AMT school OR have at least 30 months of relevant civilian or military work experience (supervised by a certified aviation mechanic). The FAA issues the A&P certificates (airframe and powerplant), and mechanics can get either an airframe rating or a power plant rating or both--most mechanics get both. Those who want a certificate with just a single rating and who base their application on practical experience must demonstrate 18 months of work experience applicable to the chosen rating. Learn more about the training and experience requirements to become an aircraft mechanic.

After your education or training qualifications are met, you'll be eligible to take the required oral, practical, and written tests. You must pass all these tests within 24 months. The tests cover 43 technical subjects. Typically, tests for one certificate--airframe or power plant--take about 8 hours. (Get more details about the A&P Mechanics Tests.) When you pass, you will have earned your FAA mechanic license with airframe and/or powerplant certificates (A&P license), and you'll be on your way to a successful career in aviation maintenance! Learn more about aviation maintenance technician training now.

A&P License Currency

Although your A&P certificates don't expire, you must remain "current" by meeting several criteria, including completing a minimum of 1,000 hours of hands-on work experience during the previous 24 months (or completing a refresher course) and completing at least 16 hours of additional training every 24 months. The additional training requirement is usually satisfied by attending manufacturer events or training with outside contractors hired to conduct the training.

Avionics Technician Specialty Training
As an A&P mechanic, if you have the training, qualifications, and tools, the FAA will allow you to work on avionics as well. Avionics technicians are not specifically required to have FAA certification if they received their avionics training in the military or from working for an avionics manufacturer.

A&P Mechanic Training: Using Veteran's Benefits

Your veteran's benefits, especially the Post 9/11 GI Bill, are one of the best sources of funding available to pay for A&P mechanic training. With the Post 9/11 GI Bill, you can be reimbursed for up to 100% of your aviation mechanic training expenses. This is a sizeable amount of funding that goes a long way toward making you an A&P mechanic, but there are a few things to consider before taking the leap.

A&P mechanic training expenses can be covered up to $10,000 dollar per academic year. Qualified veterans can use Post 9/11 GI Bill benefits to cover 100% of their training costs up to $10,000 dollars per academic year. Depending on the program, this is a big portion of the expense of aviation mechanic training. While it is worth noting this limitation, it is hardly causing alarm since it covers or severely reduces the costs of most A&P mechanic courses.

Aviation mechanic training programs require VA approval for reimbursement. An arguably more important consideration before beginning your A&P mechanic training is whether a particular training provider is approved by the VA. The good news is there is a pretty standard process and it isn't a secret whether a school is approved.

The only potential catch is that the VA must also approve individual courses before they will reimburse your flight training costs. This means that while a school may have approval, every course they offer isn't necessarily covered by your Post 9/11 GI Bill benefits.

Aviation mechanic training is improved by the approval process. The requirements for receiving an A&P mechanic certificate are standardized, but there is still a lot of variation in training programs. Since the VA mandates a fairly stringent approval process and there are ongoing paperwork requirements, most schools have a VA representative who is very familiar with the system.

This representative, the approval process, and the paperwork have a net effect of improving the quality of your aviation mechanic training by weeding out weak training courses and keeping you active in your training. Once you start training, most of the paperwork can be managed for you, allowing you to focus on your A&P mechanic training.

In fact, this is the most important takeaway. The stringent requirements of the Post 9/11 GI Bill create better-equipped schools, more efficient training courses, and save you money during your aviation mechanic training. For more information and to verify your eligibility, call 1-888-GIBILL-1 or check out the GI Bill website

FAA - A History of Airplane Structures Details for Oklahoma

There are five major stresses to which all aircraft are subjected: Bending. Bending stress is a combination of compression and tension. The rod in Figure 1-14E has been shortened (compressed) on the inside of the bend and stretched on the outside of the bend. A single member of the structure may be subjected to a combination of stresses. In most cases, the structural members are designed to carry end loads rather than side loads. They are designed to be subjected to tension or compression rather than bending.

Aviation Facts - High-Speed Aerodynamics

Listed below are a range of conditions that are encountered by aircraft as their designed speed increases. Subsonic conditions occur for Mach numbers less than one (100–350 mph). For the lowest subsonic conditions, compressibility can be ignored. As the speed of the object approaches the speed of sound, the flight Mach number is nearly equal to one, M = 1 (350–760 mph), and the flow is said to be transonic. At some locations on the object, the local speed of air exceeds the speed of sound. Compressibility effects are most important in transonic flows and lead to the early belief in a sound barrier. Flight faster than sound was thought to be impossible. In fact, the sound barrier was only an increase in the drag near sonic conditions because of compressibility effects. Because of the high drag associated with compressibility effects, aircraft are not operated in cruise conditions near Mach 1. Supersonic conditions occur for numbers greater than Mach 1, but less than Mach 3 (760–2,280mph). Compressibility effects of gas are important in the design of supersonic aircraft because of the shockwaves that are generated by the surface of the object. For high supersonic speeds, between Mach 3 and Mach 5 (2,280–3,600 mph), aerodynamic heating becomes a very important factor in aircraft design. For speeds greater than Mach 5, the flow is said to be hypersonic. At these speeds, some of the energy of the object now goes into exciting the chemical bonds which hold together the nitrogen and oxygen molecules of the air. At hypersonic speeds, the chemistry of the air must be considered when determining forces on the object. When the space shuttle re-enters the atmosphere at high hypersonic speeds, close to Mach 25, the heated air becomes an ionized plasma of gas, and the spacecraft must be insulated ted from the extremely high temperatures.

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