A ski jumper travels down a slope and leaves the ski track moving in the horizontal direction with a speed of 25m/s as in figure-2. The landing incline below him falls off with a slope of 35⁰. Where does he land on the incline?
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4. (20 points)A ski jumper starts with a horizontal take-off velocity of vo =20.0 m/s and lands on a hill inclined at 30.0o (see the Figure).Note: a convenient coordinate system may not be horizontal andvertical.a) Determine the time (in seconds) between take-off and landing. (8pts.)b) Determine the distance down the hill, d, of the jump. (6pts.)c) What is the component of the ski jumperâs velocity along theinclined landing hill when he lands? (6 pts.)
A skier leaves the ramp of a ski jump with a velocity of at above the horizontal as shown in above figure. The slope where she will land is inclined downward at , and air resistance is negligible. Find (a) the distance from the end of the ramp to where the jumper lands and (b) her velocity components just before the landing. (c) Explain how you think the results might be affected if air resistance were included.
A skier leaves the ramp of a ski jump with a velocity of v = 10.0 m/s at above the horizontal as shown in Figure P4.49 (page 94). The slope where she will land is inclined downward at , and air resistance is negligible. Find (a) the distance from the end of the ramp to where the jumper lands and (b) her velocity components just before the landing. (c) Explain how you think the results might be affected if air resistance were included.