The combined mass of the
snowboarder and her board is 63 kg. If she is traveling at 6 m/s at
point A, what is her speed and the normal force exerted on her when
she reaches point B. (Neglect friction)
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The combined mass of the
snowboarder and her board is 63 kg. If she is traveling...
The skier shown below has a mass of 60 kg and is traveling with a speed...
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course of the 309 meters of downhill road, she encounters a
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A stationary skater with a mass of 80.0 kg and a moment of inertia (about her...
A stationary skater with a mass of 80.0 kg and a moment of inertia (about her central vertical axis) of 3.00 kg-m2 catches a baseball with her outstretched arm. The catch is made at a distance of 1.00 m from the central axis. The ball has a mass of 145 g and is traveling at 20.0 m/s before the catch. (a) What linear speed does the system (skater + ball) have after the catch? (b) What is the angular speed...
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14-86. The roller-coaster car has a speed of 15 ft/s whe it is at the crest of a vertical parabol...
dynamic
14-86. The roller-coaster car has a speed of 15 ft/s whe it is at the crest of a vertical parabolic track. Determi the car's velocity and the normal force it exe on the track when it reaches point B. Neglect friction and the mass of the wheels. The total weight of the car and the passengers is 350 lb. ne VA 15 ft/s y y-200 (40 000-2) 200 ft 200 ft Prob. 14-86
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A small block with mass 0.0375 kg slides in a vertical circle of radius 0.600 m...
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The skier shown below has a mass of 60 kg and is traveling with a speed of 5 m/s at point A. Determine the skier's speed at point B in m/s. You may neglect friction. у y = (0.025x² + 5) m А. 15 m B х
A bicyclist on an old bike (combined mass: 94 kg) is rolling
down (no pedaling or braking) a hill of height 129 m. Over the
course of the 309 meters of downhill road, she encounters a
constant friction force of 342 Newton. If her speed at the top of
the hill is 5 m/s, what is her speed at the bottom of the
hill?
A car with a mass of 1110 kg is traveling in a mountainous area with a constant speed of 79.5 km/h. The road is horizontal and flat at point A, horizontal and curved at points B and C. в ~ | 2 А The radii of curvatures at B and Care: rb = 150 m and rc = 100 m. Calculate the normal force exerted by the road on the car at point A. 1.09x 104 N You are correct....
dynamic
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