Find a pattem from the following experimental data A spring scale pulls. 1-kg block over a medium smooth surface. The reading of the scale can be used to determine the magnitude of the maximum static friction force- this instance, the force when the block starts to slide. In some experiments, a compressible spring also pushes vertically down on the block (see the second block). A. Use the data in the table to draw a graph of the maximum static friction force versus the normal force exerted by the surface on the block. B. Find the slope of the graph you just made. What are the units for the slope?

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This educational resource presents an experiment involving a 1 kg block on a surface, with an additional force exerted by a spring. The purpose is to illustrate the relationship between downward force, normal force, and static friction. **Diagram Description:** - A 1 kg block is shown with a spring applying a horizontal force. **Table Details:** The table lists measurements of forces involved in the experiment: - **Columns:** 1. **Extra downward force exerted on the 1 kg block** (in Newtons, N): - 0 N - 5 N - 10 N - 20 N 2. **Normal force exerted by the surface on the block, \(N_{\text{ext}}\)** (in Newtons, N): - 10 N - 15 N - 20 N - 30 N 3. **Maximum static friction force, \(f_{\text{max}}\)** (in Newtons, N): - 3 N - 4.5 N - 6 N - 9 N This demonstrates how increasing the downward force increases both the normal force and the maximum static friction, which acts to prevent motion.