Your lab assignment for the week is to measure the amount of charge on the 6.0-cm-diameter metal sphere of a Van de Graaff generator. To do so, you're going to use a spring with spring constant 0.65 N/m to launch a small 1.5 g bead horizontally toward the sphere. You can reliably charge the bead to 2.5 nC, and your plan is to use a video camera to measure the bead's closest approach to the edge of the sphere as you change the compression of the spring. You'll then add 3.0-cm, the radius of the sphere, to each to have the distance to the center of the sphere. Your data are as follows: Part A Choose an appropriate graph of the data to determine the sphere's charge in nC. You can assume that the bead's motion is entirely horizontal, that the spring is so far away that the bead has no interaction with the sphere as it's launched, and that the approaching bead does not alter the charge distribution on the sphere. Closest approach, r(m) 354 Compression (cm) Closest approach (cm) 1.6 5.5 r= (46200 1/m )x+ (0.263 m) 1.9 2.6 30 2.2 1.6 25. 2.5 0.4 20- 15- 10- 5 0.0001 0.0002 0.0003 0.0004 0.0005 0.0006 0.0007 Compression squared, x² (m²) 1/Closest approach, 1/r (1/m) 354 30- 1/r= (46200 1/m³)x² + (0.263 1/m) 25- 20- 15- 10- 5 0000 P Pearson
Your lab assignment for the week is to measure the amount of charge on the 6.0-cm-diameter metal sphere of a Van de Graaff generator. To do so, you're going to use a spring with spring constant 0.65 N/m to launch a small 1.5 g bead horizontally toward the sphere. You can reliably charge the bead to 2.5 nC, and your plan is to use a video camera to measure the bead's closest approach to the edge of the sphere as you change the compression of the spring. You'll then add 3.0-cm, the radius of the sphere, to each to have the distance to the center of the sphere. Your data are as follows: Part A Choose an appropriate graph of the data to determine the sphere's charge in nC. You can assume that the bead's motion is entirely horizontal, that the spring is so far away that the bead has no interaction with the sphere as it's launched, and that the approaching bead does not alter the charge distribution on the sphere. Closest approach, r(m) 354 Compression (cm) Closest approach (cm) 1.6 5.5 r= (46200 1/m )x+ (0.263 m) 1.9 2.6 30 2.2 1.6 25. 2.5 0.4 20- 15- 10- 5 0.0001 0.0002 0.0003 0.0004 0.0005 0.0006 0.0007 Compression squared, x² (m²) 1/Closest approach, 1/r (1/m) 354 30- 1/r= (46200 1/m³)x² + (0.263 1/m) 25- 20- 15- 10- 5 0000 P Pearson
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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