A 90 kgkg ice skater moving at 10.0 m/sm/s on the ice encounters a region of roughed up ice with a coefficient of kinetic friction of 0.360. How far along the rough ice does she go before stopping?
A 90 kgkg ice skater moving at 10.0 m/sm/s on the ice encounters a region of...
A 90 kg ice skater moving at 11.0 m/s on the ice encounters a region of rough up ice with a coefficient of kinetic friction 0.500. How far along the rough ice doe she go before stopping?
On an essentially frictionless, horizontal ice rink, a skater moving at 6.0 m/s encounters a rough patch that reduces her speed by 46 % due to a friction force that is 26 % of her weight. Use the work-energy theorem to find the length of this rough patch.
"On an essentially frictionless, horizontal ice rink, a skater moving at 4.3 m/s encounters a rough patch that reduces her speed by 42% due to a friction force that is 24% of her weight. Use the work—energy theorem to find the length of this rough patch."
On an essentially frictionless horizontal ice-skating rink, a skater moving at 2.8 m/s encounters a rough patch that reduces her speed by 47 % to a friction force that is 22 % of her weight. Use the work-energy principle to find the length of the rough patch.
A 92.71 kg skater moving initially to the right at 0.39 m/s on rough horizontal ice comes to rest uniformly (constant acceleration) in 5.85 s due to friction from the ice. What force does friction exert on the skater?
A 13.28 kg skater moving initially to the right at 9.51 m/s on rough horizontal ice comes to rest uniformly (constant acceleration) in 2.12 s due to friction from the ice. What is the acceleration of the skater due to friction?
A 102.08 kg skater moving initially to the right at 5.3 m/s on rough horizontal ice comes to rest uniformly (constant acceleration) in 5.1 s due to friction from the ice. What is the acceleration of the skater due to friction?
A speed skater moving across frictionless ice at 8.5 m/s hits a 5.9 m -wide patch of rough ice. She slows steadily, then continues on at 5.5 m/s What is her acceleration on the rough ice?
5))A 40 kg ice skater is gliding along the ice, heading due north at 4.4 m/s. The ice has a small coefficient of static friction, to prevent the skater from slipping sideways, but µk = 0. Suddenly, a wind from the northeast exerts a force of 4.0 N on the skater. (a) Use work and energy to find the skater's speed after gliding 90 m in this wind. m/s (b) What is the minimum value of µs that allows her...
An ice skater is gliding horizontally across the ice with an initial velocity of +6.04 m/s. The coefficient of kinetic friction between the ice and the skate blades is 0.0804, and air resistance is negligible. How much time elapses before her velocity is reduced to +2.91 m/s?