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Flight Instructor Jobs Oklahoma OK

Find Top Flight Instructor Jobs in Oklahoma

Aviation experts recommend to prospective flight instructors who are looking for top-flight instructor jobs in Oklahoma to choose a flight school that will FULLY prepare them for a good-paying job as a top-flight instructor in Oklahoma. Moreover, to secure a career as a professional Flight Instructor in Oklahoma, be prepared for it to take a lot more than merely acquiring your flight instructor ratings. It also takes the ability to network and serve other people well. 

Therefore, to obtain the top flight instructor job in Oklahoma, it is helpful if you have a pleasing personality backed by excellent training and supported by an incredible work ethic. Of course, to win, the top flight instructor jobs in Oklahoma student-pilots need plenty of experience. Furthermore, the flight instructors from Oklahoma who land the top flight instructor jobs near Oklahoma typically have the best people skills too. So, to be an active professional flight instructor, a student pilot will need to develop themselves in areas beyond flying and instructing.

Top Flight Instructor Jobs near Oklahoma - $45,000 to $60,000

Oklahoma Flight Instructor Job Prerequisites

  • 1,200 to 1,500 PIC hours (clean, verifiable flight log)
  • FAA Commercial Rotorcraft
  • FAA Helicopter Instrument Rating
  • Current Class II Medical Certificate
  • Prove eligibility to work in the US
  • Pass drug and alcohol test
  • S76 or AW 139 experience (turbine) is a plus

Are you working on your future as a commercial pilot! If you are seeking a continual, fast-moving work environment where you master the state-of-the-art technologies and be able to solve real-live aviation-related challenges.Earnings for a Certified Flight Instructor (CFI) generally range from $30,000 to $60,000 per year ($15 to $30 per hour), but this depends significantly on your flying experience, your location, the weather conditions you fly in, your hours have soared, and the demand for flight instruction in California.

Earnings for a Certified Flight Instructor (CFI) generally range from $30,000 to $60,000 per year ($15 to $30 per hour), but this depends significantly on your flying experience, your location, the weather conditions you fly in, your hours have soared, and the demand for flight instruction in Oklahoma. The most significant influence on wages and salaries is determined by the number of hours you fly.

Can you make a living as a flight instructor? Yes, you can! And, with the current shortage of flight instructors, pay, and benefits for flight instructors are rapidly going up. If you charge appropriately and are excellent at your job, you can make an exceptional living as a full-time flight instructor in Oklahoma.

Starting Flight Instructor Salaries in Oklahoma

Flight instructors in the U.S. typically start out making an hourly rate of $25 – $60 per hour, or about $30,000-$60,000 per year, depending on the aviation company, type of aircraft you'll fly, and your flight instructor's experience.

What is expected of the successful flight instructor candidates from Oklahoma

  • Know the values and mission of the company
  • Your attitude is everything - your mindset needs to fit the company.
  • Who did you complete your train with?
  • What aviation networks have you established
  • Record 1,200 to 1,500 PIC Hours
  • Never exaggerate your experience or aviation skills
  • Knowledge and mastery of the company's customer service policy
  • Be knowledgable about everything related to your company, even if your experience is limited
  • Be Coachable! Listen and learn
  • Be safety conscious and aware AT ALL TIMES
  • Be predictable, stable, and dependable

FAA - A History of Aircraft 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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