A skier going down a slope of angle θ below the horizontal is opposed by a...
A skier going down a slope of angle θ below the horizontal is opposed by a turbulent drag force that the air exerts on the skier and by a kinetic friction force that the snow exerts on the skier. The mass of the skier is m. Determine the terminal speed assuming that the coefficient of kinetic friction between the skis and the snow is μ, the density of air is ρ, the skier's frontal area is A, and the drag coefficient is CD. Express your answer in terms of the variables m, θ, μ, CD, ρ, A and appropriate constants.
Homework Answers
Here we apply Newton's laws of motion and definition of drag force, terminal speed and kinetic friction.
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A skier going down a slope of angle θ below the horizontal is
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A skier is pulled up a slope at a constant velocity by a tow bar. The slope is inclined at 25.2 ° with respect to the horizontal. The force applied to the skier by the tow bar is parallel to the slope. The skier's mass is 46.5 kg, and the coefficient of kinetic friction between the skis and the snow is 0.158. Find the magnitude of the force that the tow bar exerts on the skier.
Question 1 1 pts A snow skier is racing directly downhill on snow with a kinetic...
Question 1 1 pts A snow skier is racing directly downhill on snow with a kinetic friction coefficient (between the snow and the skis) of 0.05. The angle of the slope is 40 degrees. The mass of the skier and ski equipment is 78 kg, the skier's cross-sectional area (in a "tucked" position) is 1.4 m2, the drag coefficient with respect to the air is 0.14 and the air's density Pair =1.21 kg/m3. What is the skier's terminal speed going...
What is the terminal speed for a 79 kg skier going down a 37 ∘ snow-covered...
What is the terminal speed for a 79 kg skier going down a 37 ∘ snow-covered slope on wooden skis μk= 0.060? Assume that the skier is 1.8 m tall and 0.50 m wide. Assume the skier's drag coefficient is 0.80.
What is the terminal speed for an 85 kg skier going down a 35 ∘ snow-covered...
What is the terminal speed for an 85 kg skier going down a 35 ∘ snow-covered slope on wooden skis μk= 0.060?Assume that the skier is 1.8 m tall and 0.50 m wide. Assume the skier's drag coefficient is 0.80.
In downhill speed skiing a skier is retarded by both the air drag force on the...
In downhill speed skiing a skier is retarded by both the air drag force on the body and the kinetic frictional force on the skis. Suppose the slope angle is θ = 32.5°, the snow is dry snow with a coefficient of kinetic friction μk = 0.0400, the mass of the skier and equipment is m = 78.5 kg, the cross-sectional area of the (tucked) skier is A = 1.30 m2, the drag coefficient is C = 0.150, and the...
A skier, starting from rest, coasts down a slope that makes a 25.0o angle with the...
A skier, starting from rest, coasts down a slope that makes a 25.0o angle with the horizontal. The coefficient of kinetic friction between the snow and the skis is 0.200. The skier travels along the slope a distance of 11.4 m before skiing off the edge of a cliff. The skier falls a vertical distance of 3.80 m before landing on another downhill slope. Determine the speed with which the skier lands.
NAME: [1.) (20 pts) (Work-Energy Theorem) A 67.0 kg skier on a horizontal patch of snow...
NAME: [1.) (20 pts) (Work-Energy Theorem) A 67.0 kg skier on a horizontal patch of snow skiing at an initial speed of 11.0 m/s coasts to a stop after 177 m. (a.) Use the Work-Energy Theorem to find the coefficient of kinetic friction, H., between the skis and the snow. (6.) Suppose a 75.0 kg skier with three times the initial speed coasted to a stop over the same distance. Find the coefficient of kinetic friction between that skier's skis...
A skier on a slope inclined at 4.7° to the horizontal pushes on ski poles and...
A skier on a slope inclined at 4.7° to the horizontal pushes on ski poles and starts down the slope. The initial speed is 2.7 m/s. The coefficient of kinetic friction between skis and snow is 0.11. Determine how far the skier will slide before coming to res
An extreme skier, starting from rest, coasts down a mountain slope that makes an angle of...
An extreme skier, starting from rest, coasts down a mountain slope that makes an angle of 25.0° with the horizontal. The coefficient of kinetic friction between her skis and the snow is 0.200. She coasts down a distance of 12.1 m before coming to the edge of a cliff. Without slowing down, she skis off the cliff and lands downhill at a point whose vertical distance is 2.60 m below the edge. How fast is she going just before she...
An extreme skier, starting from rest, coasts down a mountain slope that makes an angle of...
An extreme skier, starting from rest, coasts down a mountain slope that makes an angle of 25.0° with the horizontal. The coefficient of kinetic friction between her skis and the snow is 0.200. She coasts down a distance of 10.9 m before coming the edge of a cliff. Without slowing down, she skis off the cliff and lands downhill at a point whose vertical distance is 2.60 m below the edge. How fast is she going just before she lands?...
Question 1 1 pts A snow skier is racing directly downhill on snow with a kinetic friction coefficient (between the snow and the skis) of 0.05. The angle of the slope is 40 degrees. The mass of the skier and ski equipment is 78 kg, the skier's cross-sectional area (in a "tucked" position) is 1.4 m2, the drag coefficient with respect to the air is 0.14 and the air's density Pair =1.21 kg/m3. What is the skier's terminal speed going...
NAME: [1.) (20 pts) (Work-Energy Theorem) A 67.0 kg skier on a horizontal patch of snow skiing at an initial speed of 11.0 m/s coasts to a stop after 177 m. (a.) Use the Work-Energy Theorem to find the coefficient of kinetic friction, H., between the skis and the snow. (6.) Suppose a 75.0 kg skier with three times the initial speed coasted to a stop over the same distance. Find the coefficient of kinetic friction between that skier's skis...
An extreme skier, starting from rest, coasts down a mountain slope that makes an angle of 25.0° with the horizontal. The coefficient of kinetic friction between her skis and the snow is 0.200. She coasts down a distance of 10.9 m before coming the edge of a cliff. Without slowing down, she skis off the cliff and lands downhill at a point whose vertical distance is 2.60 m below the edge. How fast is she going just before she lands?...
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