1. When both were lowered, the stalling speed decreased to. 2. Maximum Lift Coefficient of the aircraft and therefore reduce its stalling speed . 3. These are the stalling speeds for the aircraft at its maximum weight. 4. The Mosquito had a low stalling speed of with undercarriage and flaps raised. 5. As a tradeoff however, military aircraft often have a higher stalling speed . 6. As speeds reduce the amount of lift falls rapidly around the stalling speed . 7. The larger lifting surface reduces wing loading, hence further reducing the stalling speed . 8. The spinning characteristics were described as " dangerous " and the stalling speed was extremely high. 9. If she let down flaps, stalling speed would be reduced slightly by approximately 5 kts. 10. This, combined with its light weight, resulted in a very low stalling speed of well below.
