Electrical charges are of 2 types:-
A closed electrical circuit is an example of a complete conducting path. In solid conductors electrons are the charge carriers while in liquids the ions are the charge carriers.
Along a loop with no beginning and no end.
A conductor allows the flow of current, usually in a complete circuit. [An exception is a thermo-couple, where heating the junction of a pair of different metals causes electrons to flow away from the junction. ]
The nature of the force between charged particles in that the force is an electrostatic one. If the electric charges are alike, then a repulsive force exists, and if the charges are opposite, then the force will be an attractive one. The fundamental law of electrostatics applies here, and that is that opposite charges attract and like charges repel.That will largely depend on what statements are included on thelist that you have not seen fit to include with the question.
an open circuit
Myelin sheath is the insulation of the CNS (central nervous system). Its helps electrical signals move along nerves. Basically, its synonymous with insulated wire. Again the insulation help the signal move in a smooth and controlled fashion through out the body.
protons and electronsElectrons.
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.
Ions, such as sodium and potassium, are responsible for creating electrical charges in muscle cells. When a nerve signal triggers the release of these ions, it causes a change in the cell's electrical charge, which leads to muscle contraction. This process is essential for communication between nerves and muscles for movement.
Along a loop with no beginning and no end.
A conductor allows the flow of current, usually in a complete circuit. [An exception is a thermo-couple, where heating the junction of a pair of different metals causes electrons to flow away from the junction. ]
All the polymer can not be made electrically conductive unless there are sufficient charge carriers available within the polymer itself. These charge carriers are responsible for conduction of electrical current. There is hardly a difference between a conducting polymer and conjugated polymer. The conjugated polymers have alternate single and double bond. Moreover, all conjugated polymers are conducting polymers. Their conductivity is increased on adding a suitable impurity in order to make free charge carriers.
The axon of a neuron is responsible for conducting an action potential. This is made possible by the presence of voltage-gated ion channels along the axon membrane that allow for the propagation of electrical signals.
Along a loop with no beginning and no end.
The electrical charge that moves through a wire is in the form of negatively charged electrons. The movement of electrons in a circuit is called current. Electrons in a current are repelled from the negative end of the circuit and attracted to the positive end of the circuit.
An ionic crystal splits along a face that corresponds to the planes of its crystal lattice structure. These planes are determined by the repetitive arrangement of ions in the crystal lattice.
Complete heart block is where the electrical impulses from the SA node of the heart cannot reach the ventricles along the normal pathway. Instead the atrial contract from the SA node singles and the ventricles contract from the ventricular cells
A closed path along which charges can move is called an electric circuit. In an electric circuit, charges flow from a power source (such as a battery) through conductive materials such as wires, components, and devices, and then back to the source in a continuous loop.