A stone is dropped from a tower 100 meters above the ground. The stone falls past ground level and into a well. It hits the water at the bottom of the well 5.00 seconds after being dropped from the tower. Calculate the depth of the well. Given: g = - 9.81 meters/second2.

A useful formula that gives the free-fall distance from rest in 'T' seconds:

D = (1/2 G) x (T²)

G = 9.81 m/s²

1/2 G = 4.905 m/s²

D (5 seconds) = (4.905 m/s²) x (5 sec) ²

= (4.905 m/s²) x (25 sec²)

= 122.625 meters.

Since the tower-top is 100m above ground,

the depth of the well, to the top of the water,

accounts for the additional 22.625 meters.

My question is: How do you know exactly when the stone hit the water?

You probably stood at the top of the well and listened for the

sound of the 'plop'. But it took some time after the stone hit

the water for the sound of the plop to come back up to you.

Well, can't you just subtract that time? Yes, but you need

to know how much time to subtract. That depends on the

depth of the well ... which is exactly what you're trying to

determine, so you don't know it yet.

Oh well. That's a deep subject.