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When charges move by electric field to a position of lower potential energy what is produced?
When charges move by an electric field to a position of lower potential energy, some of their potential energy is converted into kinetic energy. This results in the charges gaining speed and moving faster as they approach the lower potential energy position.
What happens if two charges move to a position of lower potential energy due to an electric field?
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.
Which way are charges likely to move between two positions of different electrical potential energy one high and one low?
Charges are likely to move from the position of higher electrical potential energy to the position of lower electrical potential energy. This movement is driven by the principle of minimizing potential energy and achieving equilibrium.
What happens when opposite charges get close to each other?
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.
What does the potential energy of two like charges do?
The potential energy of two like charges is positive, meaning they repel each other. As they move closer together, their potential energy increases, and work must be done to bring them closer or separate them. The potential energy between like charges follows an inverse-square law, increasing as the charges get closer.
When charges move by electric field to a position of lower potential energy what is produced?
When charges move by an electric field to a position of lower potential energy, some of their potential energy is converted into kinetic energy. This results in the charges gaining speed and moving faster as they approach the lower potential energy position.
What happens if two charges move to a position of lower potential energy due to an electric field?
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.
What is a electrical current is produced when charges are accelerated by an electrical field to move to a position of potential energy that is?
An electric current is produced when charges are accelerated by an electric field and move to a position of potential energy difference. This movement of charges generates a flow of electric charge that constitutes an electric current.
Which way are charges likely to move between two positions of different electrical potential energy one high and one low?
Charges are likely to move from the position of higher electrical potential energy to the position of lower electrical potential energy. This movement is driven by the principle of minimizing potential energy and achieving equilibrium.
What happens when opposite charges get close to each other?
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.
What does the potential energy of two like charges do?
The potential energy of two like charges is positive, meaning they repel each other. As they move closer together, their potential energy increases, and work must be done to bring them closer or separate them. The potential energy between like charges follows an inverse-square law, increasing as the charges get closer.
True or false are charges in an electric circuit flow because of a difference in electrical potential energy?
True. Charges in an electric circuit flow because of a difference in electrical potential energy. This difference causes the charges to move from areas of higher potential energy to areas of lower potential energy, thus creating an electric current.
An electric current is produced when charges are accelerated by an electric field to move to a position of potential energy that is?
lower than their initial potential energy. The charges gain kinetic energy as they accelerate through the field, creating an electric current.
Does an electric cell supply energy to move charges through an electirc field?
Yes, an electric cell supplies energy to move charges through an electric field. The cell provides a potential difference that creates an electric field, which then exerts a force on the charges and causes them to move.
What happens to the potential energy of a system if the objects in the system are allowed to move freely?
If the objects in a system are allowed to move freely, the potential energy of the system will decrease as it is converted into kinetic energy of the objects in motion. As the objects move, potential energy is gradually transformed into the energy of their motion.
Which way would charges most likely move between two positions of different electrical potential energy one high and one low?
Charges would most likely move from the high potential energy position to the low potential energy position. This is because charges tend to move towards lower potential energy to reach a more stable state.
Describe how electric potential energy kinetic energy and work change when two charges of opposite sign are placed near each other?
When two charges of opposite sign are placed near each other, the electric potential energy decreases as they move towards each other due to the attractive force between them. This decrease in potential energy is converted into kinetic energy as the charges accelerate towards each other. Work is done by the electric field in moving the charges and transforming their potential energy into kinetic energy.
