A force of magnitude F acting in the x-direction on a 1.0-kg particle varies in time as shown in the figure. Find the final velocity of the particle if it is initially moving along the x-axis with a velocity of 2.0 m/s.

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The image features a graph illustrating the relationship between force and time. **Graph Details:** - **Axes:** - The horizontal axis (x-axis) represents time, labeled as \( t \) in milliseconds (ms), ranging from 0 to 3. - The vertical axis (y-axis) represents force, labeled as \( F \) in newtons (N), ranging from 0 to 20,000. - **Graph Line:** - The graph shows a triangle-shaped plot with a brown line. - It starts at the origin (0 ms, 0 N), rises to its peak at 2 ms, reaching a maximum force of 18,000 N, and then descends back to 3 ms at 0 N. - **Peak Point:** - The peak point on the graph is labeled with the force value \( F = 18,000 \, \text{N} \). This graph visually depicts how the force increases and decreases over the brief period of 3 milliseconds, reaching its maximum at the 2 ms mark.

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**Question:** Select one or more: - a. None of these choices. - b. 27.5 m/s - c. 15.5 m/s - d. 11.5 m/s - e. 13,500 m/s - f. 17.5 m/s **Description:** This list presents multiple choice options, likely pertaining to a problem involving speed or velocity, with answers in meters per second (m/s). Users are instructed to select one or more answers that apply to the posed question. The options range from typical speeds encountered in everyday scenarios to much higher values possibly applicable to specialized contexts (e.g., space travel). When encountering such a problem, consider the context of the question to determine which speeds might be relevant or accurate.