An object is dropped from a tower, 1600 ft above the ground. The object's height above the ground t seconds after the fall is s(t)=1600-16(t^2). Determine the velocity and acceleration of the object the moment it reaches the ground. ...?

Velocity = Displacement ÷ time (Displacement being the distance travelled during the time) Acceleration = final velocity- initial velocity ÷ time taken

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syed514 syed514 · Answer 2 · 2016-11-21T00:36:10+01:00

You'll need the time that the object will reach the ground, which can be obtained by solving for s(t) = 0:1600 - 16t^2 = 01600 = 16t^2100 = t^2t = 10Once you have this time, you can plug it into the velocity and acceleration function, which the first and second derivative of s(t), respectively.v(t) = s'(t) = -32ta(t) = -32 (as expected, free fall acceleration due to gravity is constant)Then v(10) = -320 ft/sAnd a(10) = -32 ft/s^2
First determine how long it takes for the object to hit the ground.Set s(t) =1600 - 16t^2 = 0So t = 10s would be the time taken.Take the first derivative of s(t) to find the velocity-time relationship:s'(t) = -32tSo s(10) = -320ft/s... This is your velocity.I think the acceleration at all points close to the earth is roughly constant, -9.81m/s^2 = -32ft/s^2
So velocity is first derivative.