Table 2 (From threfits' displaved on your graphs fill in Table 2) (10 points) Position vs. time. { Quadratic fit for x(m}) Position vs. time. { Linear fit for (m)) Velocity (m/s) Vs. Time(s) + v 0 (Svs/u) e aus woy sulod alppiw omz aun jo adols aup saop hanuenb (eops syd aypods ze4M (p) teepep au sA voisod rod 'z (uiod z) 4de au s^ uoperpooy () (b) Did your linear fit of this graph provide initial velocity? If yes, what is its value? (4 points) (c) Did your linear fit of this graph provide acceleration? If yes, what is its value? (4 points) (d) What are the SI units of the Jerk? (4 points) 7. What is the general shape of each graph and why does each have that shape? (10 points) Table 2 (From threfits' displaved on your graphs fill in Table 2) (10 points) Position vs. time. { Quadratic fit for x(m}) Position vs. time. { Linear fit for (m)) Velocity (m/s) Vs. Time(s) + v 0 (Svs/u) e aus woy sulod alppiw omz aun jo adols aup saop hanuenb (eops syd aypods ze4M (p) teepep au sA voisod rod 'z (uiod z) 4de au s^ uoperpooy () (b) Did your linear fit of this graph provide initial velocity? If yes, what is its value? (4 points) (c) Did your linear fit of this graph provide acceleration? If yes, what is its value? (4 points) (d) What are the SI units of the Jerk? (4 points) 7. What is the general shape of each graph and why does each have that shape? (10 points)