A helicopter is flying with a constant horizontal velocity of 180 km/h and is directly above point A when a loose part begins to fall. The part lands 6.5 s later at point B on an inclined surface. Determine (a) the distance d between points A and B. (b) the initial height h. -180 km/h 10⁰ B
A helicopter is flying with a constant horizontal velocity of 180 km/h and is directly above point A when a loose part begins to fall. The part lands 6.5 s later at point B on an inclined surface. Determine (a) the distance d between points A and B. (b) the initial height h. -180 km/h 10⁰ B
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Solve for d and h. Afterwards, RECHECK the values you got if they conform with the given by going back to the calculations.
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![A helicopter is flying with a constant horizontal velocity of 180 km/h and
is directly above point A when a loose part begins to fall. The part lands
6.5 s later at point B on an inclined surface. Determine (a) the distance d
between points A and B. (b) the initial height h.
-180 km/h
10⁰
B](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F71a4ea95-d011-484c-93db-6117d8491d49%2Fa664dd10-ddc0-4a85-9167-1edbcfd65915%2Fddul2ud_processed.png&w=3840&q=75)
Transcribed Image Text:A helicopter is flying with a constant horizontal velocity of 180 km/h and
is directly above point A when a loose part begins to fall. The part lands
6.5 s later at point B on an inclined surface. Determine (a) the distance d
between points A and B. (b) the initial height h.
-180 km/h
10⁰
B
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