An FBI Tactical Operations Team agent uses a high tech sling shot to launch an object from the roof of Building A. She hopes that the object will land on the roof of Building B. There is a 5.00 m wide alley between the two buildings, as shown in the figure. At the instant of its launch, the object has an initial velocity of 6.72 m/s directed 30 degrees above the horizontal. At the instant of its launch, the object is located 0.400 m above the roof of Building A, at a horizontal distance of 0.500 m from the edge of Building A, and 2.00 m above the level of the roof of Building B, as shown in the Figure. Treat the object as a point particle. Assume that air resistance is negligible, although it would not be. Assume that g 9.80m/2: The near side of Building B 30° 0.400 m 2.00 m p.500 m 5.00 m B Alley 1. How much time does it take the object to reach the highest point in its trajectory? A. 0.594 s. B. 0.686 s. C. 0.859 s. D. 0.343 s. E. 0.561 s. 2. At the instant when the object passes through the highest point in its trajectory, A. its velocity is zero. B. its speed is equal to zero. C. its acceleration is equal to zero. D. the y-component of its velocity is equal to zero. E. the y-component of its acceleration is equal to zero. 3. How much time would it take the object to travel a horizontal distance of 5.50 m from its launch point? A. 0.561 s. B. 0.945 s. C. 1.64 s. D. 0.818 s. E. 1.06 s.

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An FBI Tactical Operations Team agent uses a high-tech sling shot to launch an object from the roof of Building A. She hopes that the object will land on the roof of Building B. There is a 5.00 m wide alley between the two buildings, as shown in the figure. At the instant of its launch, the object has an initial velocity of 6.72 m/s directed 30 degrees above the horizontal. At the instant of its launch, the object is located 4.00 m above the roof of Building A, at a horizontal distance of 0.500 m from the edge of Building A, and 2.00 m above the level of the roof of Building B, as shown in the figure. Treat the object as a point particle. Assume that air resistance is negligible, although it would not be. Assume that \( g = 9.80 \, \text{m/s}^2 \). Diagram Explanation: - The diagram shows two buildings, A and B, with an alley of 5.00 m between them. - Building A is higher than Building B, with the object launching from the roof of A. - The object is launched from 0.500 m from the edge of Building A. - It reaches Building B, 2.00 m above its roof level. - The trajectory angle is 30 degrees above the horizontal. Questions: 1. How much time does it take the object to reach the highest point in its trajectory? - A. 0.594 s - B. 0.686 s - C. 0.859 s - D. 0.343 s - E. 0.561 s 2. At the instant when the object passes through the highest point in its trajectory, - A. its velocity is zero. - B. its speed is equal to zero. - C. its acceleration is equal to zero. - D. the y-component of its velocity is equal to zero. - E. the y-component of its acceleration is equal to zero. 3. How much time would it take the object to travel a horizontal distance of 5.50 m from its launch point? - A. 0.561 s - B. 0.945 s - C. 1.64 s - D. 0.818 s - E.

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**Questions on Object Motion Over Building B** 5. The object would pass over the near side of Building B: A. ~0.40 m above the roof of Building B. B. ~1.2 m above the roof of Building B. C. ~0.80 m above the roof of Building B. D. ~1.0 m above the roof of Building B. E. The object does not pass over the near side of Building B; it falls into the alley. 6. At the instant just before the object lands on the roof of Building B, the object’s speed would be: A. 9.18 m/s. B. The object does not land on the roof of Building B. C. 7.11 m/s. D. 7.86 m/s. E. 2.44 m/s. 7. True or False: The object lands on the roof of Building B at a horizontal distance of ~1.2 m beyond the near side of Building B? A. True. B. False.