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11.) Although all of your fields will vary in magnitude, the electric field strength near the center of the parallel-plate capacitor should vary only slightly,

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11.) Although all of your fields will vary in magnitude, the electric field strength near the center of the parallel-plate capacitor should vary only slightly, indicating that the electric field (at least near the midpoint between the two plates) is approximately uniform. ldeal capacitors produce uniform (or constant) electric fields, while real capacitors produce non-uniform fields (that means they are not constant) that are only approximately uniform near the center of the parallel plate capacitor and far away from the top and bottom of the edges. 12.) Dragthe field and voltage \"sensor\" from the bottom of the screen to the workspace. Place the yellow dot (the sensor) at various points near the center of the parallel plate capacitor (far from the top and bottom edges) as shown in the image below. Do you notice the field changing drastically, or is it approximately uniform? j' G y FEEEEF 4 b L e P - e 7t '\\ AT S W T N A Y Y y '# O I R B B FAW AL L Ll Ll V. Charges and Figlds 13.) Place the yellow dot (the sensor) at various points along each equipotential line. Make sure to also probe points outside the parallel plate capacitor. The red arrow thatis shown is the electric field vector at the point where the yellow dot is. What is the angle between the equipotential line and the electric field vector at all of the point you probed? HINT: This angle does not need to be calculated and is the same for all points on the equipotential lines. What general statement can be made about electric field lines intersection equipotential lines? 14.) Type up a short report summarizing your results. Make sure to inlcude all of your calculations, images of your parallel plate capacitor with the various equipotentials drawn (with voltage values displayed), and the distance measurements displayed. Feel free to use this document as a template. Charges and Fields Place the voltmeter at a point between the two plates and click on the pencilicon. After clicking the pencil icon, you will see a green equipotential line drawn for that voltage value that was measured. All the points that lie on this equipotential have the same voltage value. Click on \"values\" on the upper right-hand corner of the screen to get the numerical value of this voltage. Create four more equipotentials as shown in the figure below. phet colorado edu Al g o & %

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