A fighter pilot dives his plane toward the ground at 230

m/s. He pulls out of the dive on a vertical circle. What is the

minimunradius of the circle, so that the normal force exerted on

the pilotby his seat never exceeds three times his weight?

Question

Danielle

Physics

26 October, 06:34

A fighter pilot dives his plane toward the ground at 230

m/s. He pulls out of the dive on a vertical circle. What is the

minimunradius of the circle, so that the normal force exerted on

the pilotby his seat never exceeds three times his weight?

+4

Answers (1)

Know the Answer?

Terrance · Answer 1

r > = 1799.3 m

or 1799.3 m minimum.

Explanation:

As the pilot cannot pull more than 3 g's, the centripetal acceleration must be less than or equal to three times the force of gravity which is

3*9.8 m/s² = 29.4 m/s².

Acceleration (Centripetal acceleration) is the tangential speed squared divided by the radius of the circle or V^2/r. So we have

Centripetal acceleration=V²/r

230²/r=3*9.8

52900/r=29.4

52900=29.4r

52900/29.4=r

Now

1799.3<=r

r > = 1799.3 m

or 1799.3 m minimum.

A fighter pilot dives his plane toward the ground at 230m/s. He pulls out of the dive on a vertical circle. What is theminimunradius of the circle, so that the normal force exerted onthe pilotby his seat never exceeds three times his weight?

A fighter pilot dives his plane toward the ground at 230

m/s. He pulls out of the dive on a vertical circle. What is the

minimunradius of the circle, so that the normal force exerted on

the pilotby his seat never exceeds three times his weight?