Examplel Graphĭipole Equipotential Lines Dipole 3,50 3.00 zou Isu 2,50 + + + + + + + + + + + + + + + + -+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + 1 + + + + + + + + + + + + + + + + + + + + + + + + Using the properties of electric field lines, the properties of equipotentials, and properties of conductors listed in he Background Information section, draw in the electric ield lines on the same sheets as the equipotentials. After a complete curve has been mapped out, connect the points with a smooth curve and label the curve with the appropriate voltage 2.50V 3.) Repeat the process with the “Parallel Plate” conductive sheet. As an equipotential point is located with the probe, mark its location on the graph paper. You may want to start with the 2.5 V line. Be sure to use the grid points on the conductive paper as a guide for drawing the electrodes on the regular graph paper. 2 Good ConnectionĮlectric Field Step 3 4.97V 0.00V Data Collection За) 1.) On the graph paper provided in the Data Sheet", draw in the shape of the electrodes. ![]() If these metal-to-metal contacts are not secure, you will get lots of bad data, and the lab will take much longer to complete than necessary. ![]() (2b Bad Connection varying values Important: The thumbtacks must securely press the metal eye-hole into contact with the silver electrode. 2.06V Points between OO plates have The Red lead of the voltage sensor will be used as a 'Probe'. Use the existing holes in the paper and conductive thumb tacks to secure the ends of the eye-hole leads against the electrodes. 2.) Using one red and one black cord connect 'Output l' of the 850 Interface to the silver electrodes as shown below.
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