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Need help with this one please thank you;) Part 2: Exploring E fields and Potentials with PhET Simulations (adapted from 'Lectronic Plates by Dean Baird

Need help with this one please thank you;)

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Part 2: Exploring E fields and Potentials with PhET Simulations (adapted from 'Lectronic Plates by Dean Baird (2011). imixem andy ni estilq silt noswied bill lords alalupled a) Launch the Capacitor Lab simulation Capacitor Lab (2 02) at http://phet.colorado.edu/en/simulation/capacitor-lab Introduction Dialect For this activity, remain in the Introduction tab. We'll explore dielectrics & capacitance in the next chapter! sisig b) From the Control Panel VIEW menu, click on Disconnect Battery the Plate Charges and Electric field lines. yo sill mont 2918 Separation 10.0 mm c) Click the on-screen button to Disconnect Battery Plate Are d) Use the on-screen arrow control to set Plate Area to 321 7 map ~ 200 mm (between 195 mm and 205 mm2) & Plate Separation to ~7.5 mm (7.4 mm-7.6 mm). Record the actual values below. so blond => Area: 2030 mm2 => Separation: 1: 'mes 7.5 m/on bus zewoeib nods ban anoitsoup opsdi To rons STolgy WOKE anogqu Dive Inufos sill boost bris answers woy last of mix andi ge() e) From the Control Panel Meters section, activate the Stored Energy meter and the Plate Charge meter. Explore! Change the plate area and separation and charge, and see what happens to the stored energy. Measure the voltage using the Voltmeter with its red and black probes - put one probe atop each of the plates. Record your observations briefly, noting values and units for each quantity in a small table - with as many rows as you feel you need to help you understand the dependence of stored energy on those variables. Plate Area Plate Separation Charge Voltage Stored Energy 2030 mm 2 7.5 mm 9.94 x10 3 C 4- 153 Vibe 20-71 x 10' J 318- 0 mm 10 mm 9.97 x 10 3 C 3- 542 V 17.67 x 10 #3 203 . mmy 7- 5 mm 10. 69 * 103 1 7 4. 449 V 23- 78 x 10 13 J 100.D mm 1 5.0 mm 10- 49 x 103 6 - 6: 035 6 32.25 x 10 13 J f) Discuss your results with your team, and then together create an expression that shows how the stored energy depends upon the measured variables in the sim (charge, area, and separation). In other words, how does Energy change as those variables change? This is your hypothesis! Stored Energy increases with: and decreases with

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