when a external force acts on the system then the bond between the atoms in the system are excited and pass to conduction band now the excited carriers runs along the system this called flow of current
Charges move in an electrical system when it is closed and a power source is connected to it.
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.
That material would be included in the category of electrical "insulators".
It is called an electric current.
Electric charges interact through the electromagnetic force, which can be attractive (opposite charges) or repulsive (like charges). The strength of the interaction is dictated by the distance between the charges and their magnitudes. When charges are in motion, they can also produce magnetic fields that further influence their interaction.
Valence electrons are responsible for the movement of electrical charges in conductors. Electrons in the outermost energy level of an atom are free to move around and conduct electricity. Electrons can be stored in batteries as part of chemical reactions involving redox processes.
It means that they are charges (that usually refers to electrical charges), and that they don't move (or don't move significantly).
It means that they are charges (that usually refers to electrical charges), and that they don't move (or don't move significantly).
Charges in a circuit move in response to an electric field created by a power source like a battery. This electric field exerts a force on the charges, causing them to move through the circuit. This movement of charges is what allows electrical energy to be transferred from the source to the electrical components in the circuit.
Electrical charges flow when there is a potential difference between two points in a conductor, creating an electric field. This field exerts a force on the charges, causing them to move through the conductor. The flow of electrical charges is known as an electric current.
The energy of moving electrical charges is referred to as electrical kinetic energy. It is based on the movement of electrons in a conductor and is dependent on both the amount of charge involved and the speed at which the charges move. This energy can be harnessed to perform work and power electrical devices.
The energy produced by electrical charges is called electrical energy. This energy is generated when charged particles, such as electrons, move in response to an electric field. It can be harnessed to power various devices and systems.
It means that they are charges (that usually refers to electrical charges), and that they don't move (or don't move significantly).
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.
The rubber and glass rods are examples of insulators, which are materials that do not easily allow charges to move through them. This property makes them useful in electrical demonstrations to show the behavior of charges in different materials.
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.
Electric charges, such as electrons and protons, are responsible for carrying electrical current. In conductors, the movement of charges creates an electric current which can be harnessed for various applications.
The alternator is part of the electrical system. It is what charges the battery and keeps it charged.