1. Use graphing software to create a graph of Potential Energy on the vertical axis versus Applied Force on the horizontal axis for the spring with a spring constant of 100 N/m. 2. Add the data for the other two sets of spring constants ( 200 Nm & 350 Nm) to the same graph with polynomial trendlines for each data set. Include a graph title and axis titles with appropriate units. Data Table 4: Energy Displacement Applied Force (N) (m) Spring Constant = 100 N/m Spring Potential Energy (J) 0.200 20 0.600 60 1.000 100 -0.400 -40 -0.600 -60 Spring Constant = 200 N/m 0.200 40 0.600 120 1.000 200 -0.400 -80 -0.600 -120 Spring Constant = 350 N/m 0.200 70 0.600 210 1.000 350 -0.400 -140 -0.600 -210 2.0 18 50 8.0 18. 4 36 100 16 36 7 63 175 -0.400 -600

1. Use graphing software to create a graph of Potential Energy on the vertical axis versus Applied Force on the horizontal axis for the spring with a spring constant of 100 N/m. 2. Add the data for the other two sets of spring constants ( 200 Nm & 350 Nm) to the same graph with polynomial trendlines for each data set. Include a graph title and axis titles with appropriate units. Data Table 4: Energy Displacement Applied Force (N) (m) Spring Constant = 100 N/m Spring Potential Energy (J) 0.200 20 0.600 60 1.000 100 -0.400 -40 -0.600 -60 Spring Constant = 200 N/m 0.200 40 0.600 120 1.000 200 -0.400 -80 -0.600 -120 Spring Constant = 350 N/m 0.200 70 0.600 210 1.000 350 -0.400 -140 -0.600 -210 2.0 18 50 8.0 18. 4 36 100 16 36 7 63 175 -0.400 -600

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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