Problem 1 tudent tries to help some local kids make a tire swing by throwing a rope over a branch, which is difficult because there are two branches (they should pick a different tree). The lower branch is c = 7 m off the ground and upper is d = 1 m above that. The student throws the weighted end of a very light rope with an initial angle of 0 = 70° releasing it underhand at a = 0.5 m from the ground while standing b = 6 m from the tree. Determine the range of minimum and maximum initial velocities required to get over the lowest limb (B) without hitting the upper branch (C).

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Problem 1
student tries to help some local kids make a tire swing
by throwing a rope over a branch, which is difficult because there
are two branches (they should pick a different tree). The lower
branch is e = 7 m off the ground and upper is d = 1 m above
that. The student throws the weighted end of a very light rope
with an initial angle of 0 = 70° releasing it underhand at a =
0.5 m firom the ground while standing b = 6 m from the tree.
%3D
Determine the range of minimum and maximm initial velocities
required to get over the lowest limb (B) without hitting the upper
branch (C).
Transcribed Image Text:Problem 1 student tries to help some local kids make a tire swing by throwing a rope over a branch, which is difficult because there are two branches (they should pick a different tree). The lower branch is e = 7 m off the ground and upper is d = 1 m above that. The student throws the weighted end of a very light rope with an initial angle of 0 = 70° releasing it underhand at a = 0.5 m firom the ground while standing b = 6 m from the tree. %3D Determine the range of minimum and maximm initial velocities required to get over the lowest limb (B) without hitting the upper branch (C).
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