acceleration at the lowest point does not exceed 6.0 g 's. Calculate the 78 kg pilot's effective weight (the force with which the seat pushes up on him) at the bottom of the circle. Calculate the 78 kg pilot weight (the force with which the seat pushes up on him) at the top of the circle (assume the same speed).
acceleration at the lowest point does not exceed 6.0 g 's. Calculate the 78 kg pilot's effective weight (the force with which the seat pushes up on him) at the bottom of the circle. Calculate the 78 kg pilot weight (the force with which the seat pushes up on him) at the top of the circle (assume the same speed).
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Transcribed Image Text:A jet pilot takes his aircraft in a vertical loop. As shown in the figure. If the jet is moving at a speed of 1200 krm/h at the lowest point of the loop, determine the minimurn radius of the circle so that the centripetal
acceleration at the lowest point does not exceed 6.0 g 's. Calculate the 78 kg pilot's effective weight (the force with which the seat pushes up on him) at the bottom of the circle. Calculate the 78 kg pilot's effective
weight (the force with which the seat pushes up on him) at the top of the circle (assume the same speed).
O 1889.6 m, F_ bottom = 9172.7 N, F_ top = - 0.08 N
O 1889.6 m, F_ bottom = 5351 N, F_ top = 3822 N
O 1889.6 m, F_ bottom = - 0.08. N. F_ top = 9172.7 N
O 1889.6 m, F_ bottom = 3822 N, F top = 5351 N
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