A two-wheel motorbike and the driver have a mixed mass of 250 kg. While the rear tire is spinning and slipping on the floor of the road, the acceleration of the blended mass is 7.5 m/s2 to the proper alongside the surface. For this problem, you are given that the car is at first at rest, the two tires by no means go away the street surface, the friction that the avenue floor applies to the the front tire is negligible when compared to that to the rear tire, and the coefficient of kinetic friction between the tires and the street floor is hk 0.8. Estimate the ordinary pressure vectors that the avenue floor exerts to the two tires when = 30°
A two-wheel motorbike and the driver have a mixed mass of 250 kg. While the rear tire is spinning and slipping on the floor of the road, the acceleration of the blended mass is 7.5 m/s2 to the proper alongside the surface. For this problem, you are given that the car is at first at rest, the two tires by no means go away the street surface, the friction that the avenue floor applies to the the front tire is negligible when compared to that to the rear tire, and the coefficient of kinetic friction between the tires and the street floor is hk 0.8. Estimate the ordinary pressure vectors that the avenue floor exerts to the two tires when = 30°
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A two-wheel motorbike and the driver have a mixed mass of 250 kg. While the rear tire is spinning and slipping on the floor of the road, the acceleration of the blended mass is 7.5 m/s2 to the proper alongside the surface. For this problem, you are given that the car is at first at rest, the two tires by no means go away the street surface, the friction that the avenue floor applies to the the front tire is negligible when compared to that to the rear tire, and the coefficient of kinetic friction between the tires and the street floor is hk 0.8. Estimate the ordinary pressure vectors that the avenue floor exerts to the two tires when = 30°.
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