1) a capacitor is needed to store electricity; 2) the capacitor stores electricity, provided that a voltage source is connected to it; 3) The main parts of the capacitor are plates and insulators; 4) Insulators are designed to insulate metal plates and thus prevent short circuits. 5) measured in pendants; 6) Capacitance depends primarily on three things: the higher the voltage used to charge the capacitor, the more capacitor energy is measured in the advertisement. The capacitor has a reserve of energy: secondly, the larger the size of the plates and the larger their number, the more energy will be stored: thirdly, the closer the positive and negative plates, the greater the charge.
1) a capacitor is needed to store electricity;
2) the capacitor stores electricity, provided that a voltage source is connected to it;
3) The main parts of the capacitor are plates and insulators;
4) Insulators are designed to insulate metal plates and thus prevent short circuits.
5) measured in pendants;
6) Capacitance depends primarily on three things: the higher the voltage used to charge the capacitor, the more capacitor energy is measured in the advertisement. The capacitor has a reserve of energy: secondly, the larger the size of the plates and the larger their number, the more energy will be stored: thirdly, the closer the positive and negative plates, the greater the charge.