Calculating Radius of a Circular Loop in Motion with Varied Weight

AI Thread Summary
The discussion revolves around calculating the radius of a circular loop for a plane flying at 180 km/h while experiencing four times its normal weight. The key formula used is R = v^2/g, where the velocity is converted to 50 m/s. The participant initially calculates the radius as 63.71 meters but questions the validity of this result. Clarifications are made regarding the forces acting on the body at the bottom of the loop, emphasizing that the net force includes both centripetal force and weight. The conversation highlights the complexities of calculating forces in circular motion under varying weight conditions.
JonathanSnow
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Homework Statement


someone is flying a plane and he is being chased and at the bottom of the loop his guages say he is traveling at 180km/h he is sitting on a bathroom scale which says he weighs 4 times what he normally does, what is the radius of the loop in meters?


Homework Equations


Fc=Fn ?
R=v^2/g

The Attempt at a Solution


well 180km/h is 50m/s and since he is 4 times as heavy the acceleration due to gravity will be 4 times greater? so i used the formula and it comes out as 63.71 m which seems unbelievable so i figured id ask, probably somthing stupid I am doing wrong

thanks
 
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thanks i think its right :)
 
JonathanSnow said:
well 180km/h is 50m/s and since he is 4 times as heavy the acceleration due to gravity will be 4 times greater?

Aren't the forces on the body at the bottom of the loop \vec{F_{cf}}+\vec{W}=4\vec{W}? Then we get different acceleration.
 
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