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To determine the height of the bridge and the time the stone was in the air, we can use the equations of motion for vertical motion.

Let's denote the initial velocity of the stone as uu (19.6 m/s), the final velocity as vv (-49.0 m/s, negative because it's in the downward direction), the acceleration as aa (-9.8 m/s², acceleration due to gravity), the time taken as tt, and the height of the bridge as hh.

We can use the equation for final velocity:

v=u+atv = u + at

Substituting the given values:

−49.0=19.6−9.8t-49.0 = 19.6 - 9.8t

Simplifying the equation:

−9.8t=−49.0−19.6-9.8t = -49.0 - 19.6

−9.8t=−68.6-9.8t = -68.6

Dividing both sides by -9.8:

t=−68.6−9.8t = frac{ -68.6}{ -9.8}

t≈7.0 secondst approx 7.0 , ext{seconds}

So, the stone was in the air for approximately 7.0 seconds.

To find the height of the bridge, we can use the equation for distance (height):

h=ut+12at2h = ut + frac{1}{2}at^2

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