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Taking into account the coefficient of static friction and speed, the maximum radius of slides still find rt person turning the car?
You are driving with a friend who is sitting right on the passenger side front seat of his car. Would you like to be closer to your friend, so you decide to use physics to achieve its goal romantic, making a quick return. If the coefficient of static friction between his friend and the car seat 0.55 and to continue driving at a constant speed of 15 m / s, what is the maximum radius that could make his turn and still have your slide friend away? I know the answer to their cause in the book, 42, but I need to know how to draw free body diagrams and equations to use. I am confused about everything, because I feel that This is a non-inertial frame of reference and do not know how to treat the problem. Any help would be greatly appreciated.
The centripetal force needed for the mass m move along a radio cirdcle R is mv ^ 2 / R Friction is ?mg. Friction provides the centripetal force. ?mg = mv ^ 2 / RR = v ^ 2 / (mg) R = 15 ^ 2 / (0.55 x 9.8) R = 41.74 m
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