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A 2000 kg car is traveling along a curved road, r = (50e") m, while being tracked by a camera. The camera has an angular velocity of 0.05 rad/s and an angular acceleration of 0.01 rad/s at the instant that 0 = n/6 rad = 30". what is the resultant friction force developed between the tires and the road at this instant? Hint: The friction between the tires and the road is responsible for everything (accelerating, braking, and turning). r- (50e")m-

A 2000 kg car is traveling along a curved road, r = (50e") m, while being tracked by a camera. The camera has an angular velocity of 0.05 rad/s and an angular acceleration of 0.01 rad/s at the instant that 0 = n/6 rad = 30". what is the resultant friction force developed between the tires and the road at this instant? Hint: The friction between the tires and the road is responsible for everything (accelerating, braking, and turning). r- (50e")m-

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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PARTICLE F= MA A 2000 kg car is traveling along a curved road, r = (50e") m, while being tracked by a camera. The camera has an angular velocity of 0.05 rad/s and an angular acceleration of 0.01 rad/s' at the instant that e = T/6 rad = 30°. What is the resultant friction force developed between the tires and the road at this instant? Hint: The friction between the tires and the road is responsible for everything (accelerating, braking, and turning). r- (50e")m
Transcribed Image Text:PARTICLE F= MA A 2000 kg car is traveling along a curved road, r = (50e") m, while being tracked by a camera. The camera has an angular velocity of 0.05 rad/s and an angular acceleration of 0.01 rad/s' at the instant that e = T/6 rad = 30°. What is the resultant friction force developed between the tires and the road at this instant? Hint: The friction between the tires and the road is responsible for everything (accelerating, braking, and turning). r- (50e")m
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