How much altitude is typically lost during a 6-turn steady-state spin?

In the context of aviation and spin recovery, the loss of altitude during a steady-state spin is a critical factor to consider for safety and recovery procedures. Typically, during a 6-turn steady-state spin, a loss of approximately 4500 feet is expected. This figure is often used as a general standard in flight training, particularly for aerobatic flight and spin awareness training.

The significant altitude loss occurs due to the nature of spin dynamics; as an aircraft spins, it continues to descend while losing altitude rapidly. The longer a spin is maintained, the more altitude is lost, which is why understanding the implications of a spin is vital for pilots to ensure they have enough altitude to recover safely. Training emphasizes this altitude loss to instill proper habits and awareness in students, as recovery from a spin should ideally be initiated at a safe altitude to avoid unintentional ground contact.

Other figures for altitude loss might come from less reliable sources or more specific flight conditions, but the general consensus for a typical steady-state spin is that approximately 4500 feet is a realistic expectation.