(a) Determine the average acceleration of the puck in the time interval to to t- 10.0 s. ms (b) Determine the average acceleration of the puck in the time interval t- 10.0 s to t- 30.0 s. m/s (c) Determine the average acceleration of the puck in the time interval t-o to t- 40.0 s. ms?

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**Understanding Average Acceleration** A puck glides along the x-axis, and the following graph details its velocity over time. Each gridline on the vertical axis represents 1.50 m/s, while each gridline on the horizontal axis represents 2.00 s. **Graph Description:** - The graph is titled \(v_x\) (m/s) vs. \(t\) (s). - Velocity (\(v_x\)) increases linearly from 0 m/s at \(t = 0\) s to 3.0 m/s at \(t = 10\) s, stays constant until \(t = 30\) s, and then returns to 0 m/s at \(t = 40\) s. **Tasks and Formulas:** (a) **Determine the average acceleration of the puck in the interval \(t = 0\) to \(t = 10.0\) s.** \[ \text{Average Acceleration} = \frac{\Delta v}{\Delta t} = \frac{v_f - v_i}{t_f - t_i} \] **Answer:** \( \_\_\_ \ \text{m/s}^2 \) (b) **Determine the average acceleration of the puck in the interval \(t = 10.0\) s to \(t = 30.0\) s.** **Answer:** \( \_\_\_ \ \text{m/s}^2 \) (c) **Determine the average acceleration of the puck in the interval \(t = 0\) s to \(t = 40.0\) s.** **Answer:** \( \_\_\_ \ \text{m/s}^2 \) **Note:** - Answers should be given in \(\text{m/s}^2\). - Indicate the direction of acceleration with the sign of your answer. - The point \(t = 0\) is at the intersection of the axes.