Centripetal acceleration A jet flies in a vertical circle

AI Thread Summary
The discussion revolves around calculating the apparent weight of a pilot during a loop-the-loop maneuver in a jet. The pilot's mass is 96.0 kg, the jet speed is 225 m/s, and the loop radius is 2.064 km. The gravitational force acting on the pilot is calculated as 941.76 N. At the bottom of the loop, the apparent weight is determined by adding the centripetal force to the gravitational force, while at the top, the forces are subtracted. Proper vector analysis is crucial for accurately determining the forces acting on the pilot in both positions.
hCornellier
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Homework Statement


A pilot, whose mass is 96.0 kg, makes a loop-the-loop in a fast jet. Assume that the jet maintains a constant speed of 225 m/s and that the radius of the loop-the-loop is 2.064 km.

What is the apparent weight that the pilot feels (i.e., the force with which the pilot presses against the seat) at the bottom of the loop-the-loop?

What is the apparent weight felt at the top of the loop-the-loop?

Homework Equations


ac = v^2/r

The Attempt at a Solution


I've tried finding a solution for the bottom, but have yet to find it. I solved for Fg, (96kg*9.81m/s/s), then I found the centripetal force (point towards center of circle) to be equal to 2354.65N. I read that n-mg=ac?
 
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you have the correct magnitudes for centripetal and gravitational force. you need to think about the direction of the force vectors and add them.
 
So the force exerted on the chair is equal to the centripetal force - Fg?
 
the vector for centripetal force always points towards the center and gravity points down, so add the vectors appropriately
 

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