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A skier leaves the ramp of a ski jump with a velocity of v = 27.0 m/s at θ = 29.0∘ above the horizontal, as shown in the figure. The slope where she will land is inclined downward at ϕ = 50.0∘, and air resistance is negligible. (a) Find the distance from the end of the ramp to where the jumper lands. m (b) Find the velocity components just before the landing. (Let the positive x direction be to the right and the positive y direction be up.) vx = m/s vy = m/s

A skier leaves the ramp of a ski jump with a velocity of v = 27.0 m/s at θ = 29.0∘ above the horizontal, as shown in the figure. The slope where she will land is inclined downward at ϕ = 50.0∘, and air resistance is negligible. (a) Find the distance from the end of the ramp to where the jumper lands. m (b) Find the velocity components just before the landing. (Let the positive x direction be to the right and the positive y direction be up.) vx = m/s vy = m/s

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A skier leaves the ramp of a ski jump with a velocity of v = 27.0 m / s at θ = 29.0 above the horizontal, as shown in the figure. The slope where she will land is inclined downward at ϕ = 50.0 , and air resistance is negligible. (a) Find the distance from the end of the ramp to where the jumper lands. m (b) Find the velocity components just before the landing. (Let the positive x direction be to the right and the positive y direction be up.)
v x = m / s v y = m / s

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