Brake or turn? Figure depicts an overhead view of a car's path as the car travels toward a wall. Assume that the driver begins to brake the car when the distance to the wall is d=107 m, and take the car's mass a m=1400 kg, its initial speed as v_(0)=35 m/s and the coefficient of static friction as mu_(s)=0.50. Assume that car'sweight is distributed evenly on the four wheels, even during braking (a) What magnitude of static friction is needed (between tires and road) to stop the car just as it reaches the wall? (b) What is the maximum possible static friction f_(s,"max")/ (c) If the coefficient of kinetic frictic between the (sliding) tires and the road is mu_(k)=0.40, at what speed will the car hit the wall? To avoid the crash, a drivercould elect to turn the car so that it just barely misses the wall, as shown in the figure. (d) What magnitude of frictional force would be required to keep the car in a circular path of radius d and at the given speed v_(0),so that the car moves is a quarter circle and then parallel to the wall? (e) Is the required force less than f_(s."max") so that a circular path is possible?