A little ball slides down an inclined plane with a length of l = 2.5m that forms an angle of α = 45° with the horizontal plane. The inclined plane terminates in an arc with R = 0.5 m radius and a center angle of 95°. The speed of the object when it departs the end of the arc is v = 3.8 m·s−1 . a) Calculate the maximum height H above the horizontal plane that the ball will reach after departing the route. b) Calculate the time T the ball spends in the air after departing the route. c) Calculate the horizontal distance L between the point where the ball will depart the route and where it will land.
A little ball slides down an inclined plane with a length of l = 2.5m that forms an angle of α = 45° with the horizontal plane. The inclined plane terminates in an arc with R = 0.5 m radius and a center angle of 95°. The speed of the object when it departs the end of the arc is v = 3.8 m·s−1 . a) Calculate the maximum height H above the horizontal plane that the ball will reach after departing the route. b) Calculate the time T the ball spends in the air after departing the route. c) Calculate the horizontal distance L between the point where the ball will depart the route and where it will land.
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A little ball slides down an inclined plane with a length of l = 2.5m that forms an angle of α = 45° with the horizontal plane. The inclined plane terminates in an arc with R = 0.5 m radius and a center angle of 95°.
The speed of the object when it departs the end of the arc is v = 3.8 m·s−1 .
- a) Calculate the maximum height H above the horizontal plane that the ball will reach after departing the route.
- b) Calculate the time T the ball spends in the air after departing the route.
- c) Calculate the horizontal distance L between the point where the ball will depart the route and where it will land.
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