Physics307L:People/Phillips/Formal Lab Report: Difference between revisions
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===Abstract=== | |||
Using a Tesla Coil setup with variable current situated around a Helium filled glass tube with an electron gun at the bottom with a variable accelerating voltage, we measured the diameter of electron beam paths formed into circles by the induced magnetic field from the Tesla Coil setup. Using theoretical predictions of the diameter as a function of the charge-to-mass ratio (e/m) for electrons, we were able to form linear data using a least-squares fit and find the slope, which relates to this ratio and some constants. Our final measurement of (4.78 ± 0.041)·10<sup>10</sup>C/kg was <i>not</i> in very good agreement with the accepted value of 1.759·10<sup>11</sup>C/kg. The reasons for this large discrepancy will be discussed. | Using a Tesla Coil setup with variable current situated around a Helium filled glass tube with an electron gun at the bottom with a variable accelerating voltage, we measured the diameter of electron beam paths formed into circles by the induced magnetic field from the Tesla Coil setup. Using theoretical predictions of the diameter as a function of the charge-to-mass ratio (e/m) for electrons, we were able to form linear data using a least-squares fit and find the slope, which relates to this ratio and some constants. Our final measurement of (4.78 ± 0.041)·10<sup>10</sup>C/kg was <i>not</i> in very good agreement with the accepted value of 1.759·10<sup>11</sup>C/kg. The reasons for this large discrepancy will be discussed later. | ||
===Introduction=== | |||
Revision as of 02:29, 16 November 2008
Visually Measuring the Charge-to-Mass Ratio for Electrons
Author: Michael R. Phillips
Experimentalists: Michael R. Phillips & Stephen K. Martinez
University of New Mexico: Physics and Astronomy Department, Albuquerque, NM
crooked@unm.edu
Abstract
Using a Tesla Coil setup with variable current situated around a Helium filled glass tube with an electron gun at the bottom with a variable accelerating voltage, we measured the diameter of electron beam paths formed into circles by the induced magnetic field from the Tesla Coil setup. Using theoretical predictions of the diameter as a function of the charge-to-mass ratio (e/m) for electrons, we were able to form linear data using a least-squares fit and find the slope, which relates to this ratio and some constants. Our final measurement of (4.78 ± 0.041)·1010C/kg was not in very good agreement with the accepted value of 1.759·1011C/kg. The reasons for this large discrepancy will be discussed later.
