Calculating load factor for airplane

In summary, the calculations for a twisted loop are more complicated than just using the two formulas for pull-up and level-flight.
  • #1
David__
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Hello!

When calculating the load factor in a loop the formula is n=V^2/(g*R)+cos(teta) during pull-up of a loop and another formula is n=1/cos(phi) during a level-flight banked turn. How does one combine these to calculate the load factor during a twisted loop?
 
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  • #2
David__ said:
When calculating the load factor in a loop the formula is n=V^2/(g*R)+cos(teta) during pull-up of a loop and another formula is n=1/cos(phi) during a level-flight banked turn. How does one combine these to calculate the load factor during a twisted loop?
The problem is that you need to be more specific on what this "twisted loop" is. The load that you are calculating for the bank is not the load going into the bank, but the load you have once the bank is established. At that point you are not gaining (or losing) altitude. It is not obvious how that would combine with a loop.

There are several aerobatic maneuvers that are like a loop. The first is a barrel roll. That would have approximately the same loading as the inside loop.

The second would be an Imellmann where the loop is interrupted by a roll. Note that fully rolling while following the path of a loop is not possible because once the wings are pointed directly towards the center of the loop, the plane can no longer significantly accelerate towards the loops center.

The third is a snap roll. In that case, one wing has essentially no loading, the other has quite high loading. If done a maneuvering speed (as it should), that wing will be close to maximum loading.
 
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  • #3
You can find resultant acceleration using vector addition.
 
  • #4
Given a flight path, you can determine accelerations and the associated load factor (remember that a rolling airplane will have different forces on each wing). But only very simple, idealistic maneuvers are calculated as you are trying to do. Calculations for general maneuvers are done the other way around. The aerodynamics gives you forces from which the accelerations and load factor can be calculated. Then the flight path is calculated. There is no point doing calculations for maneuvers that the airplane aerodynamics can not do.
 
  • #5
FactChecker said:
...a rolling airplane will have different forces on each wing
Roll, yaw or pitch rotations per se don't affect load factor. You are only concerned with the acceleration of the airplane's center of gravity.
 
  • #6
David Lewis said:
Roll, yaw or pitch rotations per se don't affect load factor. You are only concerned with the acceleration of the airplane's center of gravity.
I stand corrected. I was thinking of normal load.
 

Related to Calculating load factor for airplane

1. What is load factor and why is it important when calculating airplane weight?

Load factor is a measure of the stress placed on an aircraft's structure and components during flight. It is calculated by dividing the total weight of the aircraft by the maximum weight it is certified to carry. Load factor is important because it helps determine the maximum safe weight that an aircraft can carry and ensures that the aircraft is not being overloaded, which can lead to structural damage or failure.

2. How is load factor calculated?

Load factor is calculated by dividing the total weight of the aircraft by the maximum weight it is certified to carry. This maximum weight is known as the aircraft's maximum takeoff weight (MTOW) and is determined by the manufacturer based on the structural limitations of the aircraft.

3. What are the factors that affect load factor?

The primary factor that affects load factor is the weight of the aircraft. Other factors that can affect load factor include the distribution of weight, the aerodynamic forces acting on the aircraft during flight, and the maneuvers or movements performed by the pilot.

4. What is the maximum load factor an aircraft can withstand?

The maximum load factor an aircraft can withstand is typically determined by the manufacturer and is included in the aircraft's specifications. For most commercial aircraft, the maximum load factor is around 2.5 to 3 times the aircraft's weight. However, this can vary depending on the type and design of the aircraft.

5. How does load factor affect the safety of a flight?

Load factor plays a crucial role in ensuring the safety of a flight. If an aircraft is operated beyond its maximum load factor, it can lead to structural damage or failure, which can result in a loss of control or catastrophic failure. Therefore, it is essential for pilots and airlines to carefully calculate and monitor load factor to ensure the safety of the flight.

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