At the bottom A of the vertical inside loop, the magnitude of the total acceleration of the airplane is 3.1g. If the airspeed is 705 km/h and is increasing at the rate of 24 km/h per second, calculate the radius of curvature p of the path at A. Answer: p= i A m
At the bottom A of the vertical inside loop, the magnitude of the total acceleration of the airplane is 3.1g. If the airspeed is 705 km/h and is increasing at the rate of 24 km/h per second, calculate the radius of curvature p of the path at A. Answer: p= i A m
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![At the bottom A of the vertical inside loop, the magnitude of the total acceleration of the airplane is 3.1g. If the airspeed is 705 km/h
and is increasing at the rate of 24 km/h per second, calculate the radius of curvature p of the path at A.
Answer: p=
i
A
m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fecfc44d6-4586-4359-bf58-372da1d6a1c3%2Ff0cea345-6986-4dc9-895e-71c4421d5ecf%2Ffedqqyp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:At the bottom A of the vertical inside loop, the magnitude of the total acceleration of the airplane is 3.1g. If the airspeed is 705 km/h
and is increasing at the rate of 24 km/h per second, calculate the radius of curvature p of the path at A.
Answer: p=
i
A
m
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