A car travels at a constant speed around a circular track whose radius is 2.6 km. The car goes once around the track in 360 s. What is the magnitude of the centripetal acceleration of the car?
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Question
Pilots of high-performance fi ghter planes can be subjected to large centripetal accelerations during high-speed turns. Because of these accelerations, the pilots are subjected to forces that can be much greater than their body weight, leading to an accumulation of blood in the abdomen and legs. As a result, the brain becomes starved for blood, and the pilot can lose consciousness (black out). The pilots wear anti-G suits to help keep the blood from draining out of the brain. To appreciate the forces that a fi ghter pilot must endure, consider the magnitude FN of the normal force that the pilots seat exerts on him at the bottom of a dive. The magnitude of the pilots weight is W. The plane is traveling at 230 m/s on a vertical circle of radius 690 m. Determine the ratio FN/W. For comparison, note that blackout can occur for values of FN/W as small as 2 if the pilot is not wearing an anti-G suit.
Solution
The first step in solving 5 problem number 42 trying to solve the problem we have to refer to the textbook question: Pilots of high-performance fi ghter planes can be subjected to large centripetal accelerations during high-speed turns. Because of these accelerations, the pilots are subjected to forces that can be much greater than their body weight, leading to an accumulation of blood in the abdomen and legs. As a result, the brain becomes starved for blood, and the pilot can lose consciousness (black out). The pilots wear anti-G suits to help keep the blood from draining out of the brain. To appreciate the forces that a fi ghter pilot must endure, consider the magnitude FN of the normal force that the pilots seat exerts on him at the bottom of a dive. The magnitude of the pilots weight is W. The plane is traveling at 230 m/s on a vertical circle of radius 690 m. Determine the ratio FN/W. For comparison, note that blackout can occur for values of FN/W as small as 2 if the pilot is not wearing an anti-G suit.
From the textbook chapter Dynamics of Uniform Circular Motion you will find a few key concepts needed to solve this.
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