Shown in the figure below is a capacitor. Each plate has an area of A1.06e-02 m² and has a gap d - Se-04 meters. At the first moment, the capacitor is empty. At the second moment is it partly filled with a dielectric of constant K 2.37. The thickness of the dielectric layer is a 1.5e-04 meters leaving a free space of b 3.5e-04 meters. Empty Capacitor Area = A Partly Filled Capacitor Write the FORMULA for the capacitance of the empty capacitor. O Parallel O Both series and parallel O Neither series nor parallel Determine the capacitance of the empty capacitor Cempty When you partly fill the capacitor, which of these best describes the new configuration: O Series Determine the formula for the partly filled capacitor Cred dielectric constant K Determine the value of the partly filled capacitor Chilled Farads Farads

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Shown in the figure below is a capacitor. Each plate has an area of A = 1.06e-02 m² and has a gap d = 5e-04 meters. At the first moment, the capacitor is empty. At the second moment is it partly filled with a dielectric of constant K = 2.37. The thickness of the dielectric layer is a = 1.5e-04 meters leaving a free space of b = 3.5e-04 meters. d Empty Capacitor Area = A Partly Filled Capacitor Write the FORMULA for the capacitance of the empty capacitor. Determine the capacitance of the empty capacitor Cempty = Determine the formula for the partly filled capacitor Cfilled = Determine the value of the partly filled capacitor Cfilled = dielectric constant K When you partly fill the capacitor, which of these best describes the new configuration: O Series O Parallel O Both series and parallel O Neither series nor parallel Farads Farads NOTE: Decide whether the partly filled capacitor acts like parallel or series by following the charge: • If the charge splits between the caps, parallel. • If the charge is the same on both caps, series. • The formula for the filled capacitor should use only the distances a and b (NOT d).