(b) The above graph indicates the force exerted on the block by the spring as a function of position a, with the positive direction toward the right. On the same graph, draw a graph of the net force on the block, as a function of position a, for situations where the block is moving toward the right.

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Here is a transcribed explanation of the content and diagram suitable for an educational website: --- ### Force and Position Analysis The diagram shown above represents a graph of the force exerted on a block by a spring, plotted as a function of the position \( x \). The force is on the vertical axis, while the position is on the horizontal axis. The graph is a straight dashed line with a negative slope, indicating that as the position \( x \) increases, the force exerted by the spring decreases. #### Details: - **Axes:** - The vertical axis is labeled "Force." - The horizontal axis is labeled "x," representing position. - **Line:** - The graph is a diagonal line with a negative slope, indicating an inverse relationship between the force and the position. - **Description:** - The force exerted by the spring is plotted as a black dashed line. - The direction of the force changes as the block moves along the x-axis. #### Instruction: (b) The above graph illustrates how force changes with position \( x \) when the block moves toward the right. On this graph, also plot the net force on the block as a function of its position for scenarios where the block is moving to the right. By understanding this dynamic, students can infer how the spring's force counterbalances motion, critical in systems experiencing harmonic motion. --- This explanation focuses on the relationship between force and position, highlighting how the spring force graph functions within the system described.