I need help with all parts. Thank you so much in advance.

(0%) Problem 10: In a particular Cartesian coordinate system, the y and z-components of the acceleration are zero and the x-component varies as given by the following function: ax = -9.5 + 5.2t, where t is in seconds and ax is in meters per second squared. The particle's velocity at time t = 0 was pointed in the positive x-direction with a magnitude of 23 m/s. A 11% Part (a) Find the instantaneous acceleration, in meters per second squared, at an elapsed time t1 = 0.75 s. ax, 1 = 1 m/s2 Grade Summary Deductions 0% Potential 100% sino cos tan( 7 8 9 HOME Submissions cotan( asin acos E 4 5 6 Attempts remaining: 10 (0% per attempt) atan() acotan() sinh( 2 3 detailed view cosh tanh() cotanh() + 0 END O Degrees O Radians VO BACKSPACE DEL CLEAR Submit Hint Feedback I give up! Hints: 1% deduction per hint. Hints remaining: 1 Feedback: 0% deduction per feedback. 4 11% Part (b) Find the instantaneous acceleration, in meters per square second, at an elapsed time t2 = 2.9 s. A 11% Part (c) Find the instantaneous acceleration, in meters per second squared, at an elapsed time t3 = 4.0 s. 4 11% Part (d) Find the instantaneous velocity, in meters per second, at at the elapsed time t1 = 0.75 s. A 11% Part (e) Find the instantaneous velocity, in meters per second, at elapsed time t2 = 2.9 s. A 11% Part (f) Find the instantaneous velocity, in meters per second, at an elapsed time (3 = 4.0 sec. A 11% Part (g) If the particle was at x = 0 m at t = 0 s, find the position in meters of the particle at elapsed time t1 = 0.75 s. A 11% Part (h). If the particle was at x = 0 m at time t = 0, find the position in meters of the particle at elapsed time to = 2.9 s. 11% Part (i) If the particle was at x = 0 m at time t = 0 s, find the position in meters of the particle at elapsed time t3 = 4.0 s