Answer:
1. The speed of the skier at the bottom of the valley is 28.706 m/s
2. The skier's speed at the top of the next hill is 10.85 m/s
3. The correct option is;
B Does Neither depends on the angle
Explanation:
Here we have conversion of mechanical energy from kinetic to potential energy as follows;
1. At the top of the 42 m hill, the potential energy of the skier is
P.E. = m·g·h = m × 9.81 × 42 = 412.02·m J
The Kinetic energy of the skier at the bottom of the hill is
1/2·m·v² = 412.02·m J
Since the mass is constant, we have'
v² = 824.04 and
v = √824.04 = 28.706 m/s
The speed of the skier at the bottom of the valley = 28.706 m/s
2. The speed at the top of the next hill is given by;
1/2·m·v² = m·g·(h₁-h₂)
v² = 2·g·(h₁-h₂) = 2×9.81×6 = 117.72
v = 10.85 m/s
The skier's speed at the top of the next hill = 10.85 m/s
3. Neither the solution of part (a) nor the solution of part (b) depend on the angle.
The correct option here is;
B Neither depends on the angle.
