You are in a car and it rounds a curve. As the car rounds a curve, you step on the gas pedal, speeding up the car. Does the centripetal force on the car increase, decrease, or remain the same?
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You are in a car and it rounds a curve. As the car rounds a curve, you step on the gas pedal, speeding up the car. Does the
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- tan 0 tan 0 + u | 61. (a) min max + u tan u tan (b) tanSuppose that a 1800 kg car passes over a bump in a roadway that follows the arc of a circle of radius 21.4 m as in the figure below. (a) What force does the road exert on the car as the car passes the highest point of the bump if the car travels at 31.0 km/h? (Neglect friction.) (b) What is the maximum speed the car can have without losing contact with the road as it passes this highest point? km/hA small airplane of mass 800 kg is doing a horizontal turn. The turn requires the pilot to bank the plane with an angle =38° as shown in the figure. What is the force providing the centripetal acceleration in the airplane. OL sin (8) O the force of gravity Fg OLcos (8)
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- A mountain climber swings a grappling hook (m=0.75 kg) at the end of a 0.6 m long rope in a vertical circle with a speed of 11 m/s. Determine the tension in the rope when the hook is at the top of the circle.46. Please help answer this question thank you so much!:))A car is moving on a banked curve at a speed v. A car is moving on a circular (radius = R) banked track (banking = B = 10° with respect to the horizontal) at a constant speed, v, in a circular path of radius R. A normal force, n, is exerted on the car from the track. The centripetal force is equal to the total normal force 0000 the radial component of the normal force the vertical component of the normal force none of the above