(5%) Problem 2: In a particular Cartesian coordinate system, the y and zcomponents of the acceleration are zero and the xcomponent varies as given by the following function: 91:03) = 4r 3:2 + 453MB, where t is in seconds, or is in meters per square second, and the constant F is in seconds. At I: 0, the particle was at position x = 3 m with a velocity pointing towards the positive xaxis and having magnitude 1'5 mfs. In the following problem you can take the constant F = 1.0 s. D a 11% Part (3) Find the instantaneous acceleration, inmeters per second squared, at I = 1 s. _ Grade Summary \"Jud/ixJ Deductions 0% Potential 100% Submissions Attempts remaining: E {0% per attempt] detailed l'iEW Hints: 0% deductiornper hint Hints remaining: 1 Feedback: 0% deduction per feedback. 11%: Part (b) Find the instantaneous acceleration, in meters per second squared, at r: 2 s. 11% Part (6} Find the instantaneous acceleration, in meters per second squared, at r: 3 s. 11% Part (d) Find the instantaneous velocity, in meters per second, at t = l s. 11%: Part (e) Find the instantaneous velocity, in meters per second, at t = 2 s. 11%: Part (1) Find the instantaneous velocity, in meters per second, at t = 3 s. 11% Part (g) Find the position, in meters, ofthe particle at i? =1 s. 11% Part (11] Find the position, in meters, of the particle at t: = 2 s. 11% Part (i) Find the position, inmet:ers= of the particle at r = 3 s. [|[|[|[|[|[|[|[| DEE-BEBE!!- A'I'I MB In}? MITA 'IJI