A paddle ball toy consists of a flat wooden paddle and a small rubber ball that are attached to each other by an elastic band (Figure). You have a paddle ball toy for which the mass of the ball is .020kg, the stiffness of the elastic band is .900N/m , and the relaxed length of the elastic band is .280m. You are holding the paddle so the ball hangs suspended under it, when your cat comes along and bats the ball around, setting it in motion. At a particular instant the the momentum of the ball is < -.02, -.02, -.02> , and the moving ball is at location <-.02, -.61, 0> relative to an origin located at the point where the elastic band is attached to the paddle.
Given the formulas

(a) Determine the position of the ball 0.1s later, using a ∆t of .1 (express your answer in vector form).
r(vector)=
(b) Starting with the same initial position <-.02, -.61, 0> m and momentum < -.02, -.01, -.02> kg*m/s, determine the position of the ball .1s later, using a ∆t of 0.05s (express your answer in vector form).
r(vector)=
(c) If your answers are different, explain why (chose one of the following)
1. The answers are not different which shows that any arbitrary time step will yield the same results
2. The answers are different because the position cannot be accurately measured at such small time intervals
3. the answers are different because the momentum cannot be accurately measured at such small time intervals
4. The answers are different because these approximations are more accurate for smaller time intervals.