MrMissinge
New member
= 30.0 (Part B figure) . The co? As shown, a unicyclist traveling at = 14.5 approaches a hill inclined at = 30.0 . The combined mass of the unicyclist and unicycle is 86.5 ; the unicycle's wheel has a mass of = 6.50 , and it has a radius of = 0.80 . If the wheel does not slip, and the unicyclist is able to apply a constant couple moment of magnitude = 35.0 to the wheel, what is the maximum elevation, , that the unicyclist can climb?
Assume that the wheel's geometry can be approximated by a thin ring and that the unicyclist is able to keep the unicycle in a vertical position while climbing the hill. Consider the system of interest to be the unicycle's wheel and the weight of the unicycle and the unicyclist applied to a point located at the center of the wheel.
Assume that the wheel's geometry can be approximated by a thin ring and that the unicyclist is able to keep the unicycle in a vertical position while climbing the hill. Consider the system of interest to be the unicycle's wheel and the weight of the unicycle and the unicyclist applied to a point located at the center of the wheel.