First you (m=115 kg) slide downhill, after that you make a curve to the right as shown in the sketch (not to scale). The initial slope has an inclination of 25° with a height difference of 80 m. The curvature has a radius of 30 m. Compute the momentum at the bottom of the slope without friction. What is the angular momentum making the curve? Calculate the centrifugal acceleration in the curve. To make sure you are not driven out, one needs a tilting inbound in the curve. Which angle is required? If we consider kinetic friction with a coefficient of 0.15 the velocity will be reduced. Calculate the velocity after running downhill and through half of a circle (tilted).

First you (m=115 kg) slide downhill, after that you make a curve to the right as shown in the sketch (not to scale). The initial slope has an inclination of 25° with a height difference of 80 m. The curvature has a radius of 30 m. Compute the momentum at the bottom of the slope without friction. What is the angular momentum making the curve? Calculate the centrifugal acceleration in the curve. To make sure you are not driven out, one needs a tilting inbound in the curve. Which angle is required? If we consider kinetic friction with a coefficient of 0.15 the velocity will be reduced. Calculate the velocity after running downhill and through half of a circle (tilted).