The magnitude of the electric field outside the space between the plates is approximately zero. 2.There is no charge on either plate of the capacitor. 3.The capacitor can be discharged by grounding any one of its two plates. 4.Charge is distributed evenly over both the inner and outer surfaces of the plates. 5.The capacitance increases when the distance between the plates increases.
the capacitance falls to half its initial value and the charge remains the same 2.the capacitance and the charge both fall to half their initial values 3.the capacitance and the charge both double 4.the capacitance remains the same and the charge doubles
Two capacitors are identical. They can be connected in series or in parallel. If you want the smallest equivalent capacitance for the combination, you will connect them _____ in series 2.in parallel 3.do the combinations have the same capacitance
You have three capacitors and a battery. In which of the following combinations of the three capacitors will the maximum possible energy be stored when the combination is attached to the battery? Series. 2.Parallel. 3.Both combinations will store the same amount of energy.