When two charges move to a position of lower potential energy due to an electric field, they will experience an attractive force pulling them together. This movement results in a decrease in the distance between the charges, leading to a release of energy in the form of work done by the electric field.
When positive and negative charges become unbalanced, an electrical charge imbalance occurs. This can lead to the generation of an electric field and the potential for an electric discharge to equalize the charge imbalance, such as in the form of lightning or a spark.
When 2 negative electric charges meet, they repel each other due to the like charges. This repulsive force causes the charges to push away from each other.
If one charge is doubled, the electric force between the two charges will also double. This is because electric force is directly proportional to the product of the two charges.
When charges move, their potential energy can either increase or decrease, depending on the direction of movement. If charges move towards each other, their potential energy decreases (energy is converted to kinetic energy). Conversely, if charges move away from each other, their potential energy increases.
At a switch, the electric current can be opened (turned off) or closed (turned on) depending on the position of the switch. When the switch is opened, the circuit is broken, and no current flows. When the switch is closed, the circuit is complete, and current can flow through the circuit.
The electric charges flow without any interruption's
When positive and negative charges become unbalanced, an electrical charge imbalance occurs. This can lead to the generation of an electric field and the potential for an electric discharge to equalize the charge imbalance, such as in the form of lightning or a spark.
When 2 negative electric charges meet, they repel each other due to the like charges. This repulsive force causes the charges to push away from each other.
Electric Field between positive and negative charges. If the Electric Field in which both the positive and negative charges are present is stronger than the Electric Field between the two charges we are talking about, the the negative charge will move away from the positive charge in that positive direction of the field. If not, then the negative charge will get attracted to the positive charge and stay at the position of the positive charge. It will be pulled toward the source of the electric field. (Novanet)
If one charge is doubled, the electric force between the two charges will also double. This is because electric force is directly proportional to the product of the two charges.
When charges move, their potential energy can either increase or decrease, depending on the direction of movement. If charges move towards each other, their potential energy decreases (energy is converted to kinetic energy). Conversely, if charges move away from each other, their potential energy increases.
It increases.
At a switch, the electric current can be opened (turned off) or closed (turned on) depending on the position of the switch. When the switch is opened, the circuit is broken, and no current flows. When the switch is closed, the circuit is complete, and current can flow through the circuit.
When the electric field is increased, the electric potential also increases. This is because electric potential is directly proportional to the electric field strength. In other words, as the electric field becomes stronger, the potential energy per unit charge also increases.
increases
Opposite charges attract each other due to the electric force. When they get close, the attraction between them increases, causing them to move towards each other until they balance out. This movement leads to the potential energy between the charges decreasing, with some of that energy being converted into kinetic energy as they move.
When two charges are the same (both positive or both negative), they repel each other due to the electric force. This force pushes the charges away from each other, as like charges repel.