Knowing that the voltage source generating square waves alternately charges and discharges the capacitor, what is the graph of the potential difference across the capacitor in an intermediate case where the time interval between charging and discharging is very long
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Knowing that the voltage source generating square waves alternately charges and discharges the capacitor, what is the graph of the potential difference across the capacitor in an intermediate case where the time interval between charging and discharging is very long
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- Which of the below statement is true for an ideal capacitor? The electric field is uniform inside the capacitor and zero outside. The electric field is nonuniform inside the capacitor and almost zero outside. The fringe field of the capacitor contributes the most to the total field. The electric field points from the negative electrode to the positive electrode.The energy density inside a capacitor is: O depends on the electric field inside the capacitor; the capacitance of the capacitor; The answer can be found on more than one of the choices. O the dimensions of the capacitor;Consider the setup of two capacitors and a DC power supply is shown in the figure. The potential difference is (6.4x10^1) volts, and the capacitors have capacitances C₁ = (3.700x10^0) µF and C₂ = (4.800x10^0) µF. What is the charge on the capacitor plate labelled A in the figure (connected to the anode of the voltage supply). Give your answer in unit of coulombs (C) using scientific notation. + AV C₁ C₂ I A B
- Two capacitors are connected in parallel and a source voltage of 100 Volts is applied across the parallel configuration. If the capacitors have values 70 and 250 milli- Farad, how much total charge is on the two capacitors? Express your answer in milli- Coulombs (mC).Kto A In the formula for capacitance C-- variable d represents: Select one: O separation between the plates of the capacitor O area of the metal plates that make up the capacitor for this experiment. O is the permittivity constant. O is the dielectric constant of the insulating material between the plates. When two capacitor plates are connected to a potential difference V, Select one: O None of the above One of the plates is charged with charge Q and the other plate is neutral. O The two plates are charged with equal but opposite amount of charge Q O The two plates are charged with equal amount of charge QProblem 4: The gap of a parallel-plate capacitor is filled with a material that has dielectric constant x, and the capacitance is Co. When connected to a battery with EMF Vo the capacitor has charge 2o and stored energy Uo. Once the capacitor has charged, then the switch is opened, and finally the dielectric material is extracted allowing the gap to fill with air. C= Part (a) Which of the following physical quantities does not change when the dielectric material is removed? The charge stored on the capacitor plates. ✓ Correct! €0 b e U= j U₁ Part (b) Enter an expression for the potential difference between the capacitor plates after the removal of the dielectric material. Your expression must include the original potential difference, Vo- V=xV₁ ✓ Correct! Part (c) Enter an expression for the charge stored by the capacitor after the removal of the dielectric material. Your expression must include the original charge, 20- Q= 80 b e j U₁ 20 b e j U₁ K Qo Vo K с с g Qo Vo K Ho Co I R Part…