A student throws a water balloon at an initial angle 0 above the horizontal with an initial speed vo from a height of h. The target is located on the ground at a horizontal distance d from the student's feet. Assume that the balloon moves-without air resistance. Use a Cartesian coordinate system with the origin at the balloon's initial position.. Vo = y m/s h d Given numeric values for the variables in the problem statement, 0 = 22.7, h = 2.06 m, and d = 8.54 m, determine the magnitude, in meters per second, of the balloon's initial velocity. Vo

A student throws a water balloon at an initial angle 0 above the horizontal with an initial speed vo from a height of h. The target is located on the ground at a horizontal distance d from the student's feet. Assume that the balloon moves-without air resistance. Use a Cartesian coordinate system with the origin at the balloon's initial position.. Vo = y m/s h d Given numeric values for the variables in the problem statement, 0 = 22.7, h = 2.06 m, and d = 8.54 m, determine the magnitude, in meters per second, of the balloon's initial velocity. Vo

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Question

A student throws a water balloon at an initial angle 0 above the horizontal with an
initial speed vo from a height of h. The target is located on the ground at a horizontal distance d from the
student's feet. Assume that the balloon moves-without air resistance. Use a Cartesian coordinate system
with the origin at the balloon's initial position..
Vo =
y
m/s
h
d
Given numeric values for the variables in the problem statement, 0 = 22.7, h = 2.06 m, and d = 8.54 m, determine the magnitude, in meters
per second, of the balloon's initial velocity.
Vo

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Step 1: Outline steps to solve the problem

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Step 2: Write kinematic equation of motion

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Step 3: Apply kinematic equation to horizontal motion of balloon

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Step 4: Apply kinematic equation to vertical motion of balloon

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