Please help with these 3 columns of this Lab Charge Q (C) / Stored Energy U (J) / Electric Field between plates E (V/m)

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Please help with these 3 columns of this Lab
Charge Q (C) / Stored Energy U (J) / Electric Field between plates
E (V/m)

Please Help With These 3 Columns Of This Lab Charge Q C Stored Energy U J Electric Field Between Plates E V M 1 (50.87 KiB) Viewed 27 times

Please help with these 3 columns of this Lab Charge QC/Stored Energy Up) / Electric Field between plates E/V/m) Capacitor Lab: Basics: Inquiry into Capacitor Design This lab uses the Capacitor Lab: Basics simulation from PhET Interactive Simulations. Open the Light Bulb screen, then explore the simulation about how a capacitor is designed. Energy stored in the capacitor versus Voltage 1. Set the plates to the minimum area (100.0 mm2), and maximum separation (10.0 mm) 2. Using the provided meters ( charge, energy, and voltmeter) in simulation complete the data table 3. Calculate the capacitance (using d. to verify) and Electric Field E. 4. Increase the voltage (0-1.5 V) from the battery and record the values of the voltage across the capacitor(V), Charge on the plate(Q), and energy stored (U). Separation d (m) Plate Area A (m?) Capacitance C = - A (F) d Trial Potential difference V IV) Charge QIC) Stored Energy U (3) Electric Field between plates E [V/m) 1 0.15 2 0.3 3 0.45 4 0.6 5 0.75 6 0.9 7 1.05 8 1.2 9 1.35 10 1.5