It makes no difference whether the circuit is parallel, series or complex. The number of electrons travelling (or oscillating back and forth for AC) is determined by the current (amps). 1 amp = 1 coulomb/second. 1 coulomb = the charge represented by 6.24150962915265 x 1018 electrons.
The current in each leg of a parallel circuit has to be worked out separately.
The work in an electric circuit is done by the flow of electric charge, typically achieved by the movement of electrons through a conductor. Work is done when a voltage is applied to the circuit, causing the electrons to move and transfer energy to the components in the circuit like light bulbs or motors.
If there is only one fan in the circuit then it is in a series circuit. If there is more that one fan then they will be connected in a parallel configuration.
The condition that limits the flow of electrons in an electric circuit is called resistance. Resistance is measured in ohms and is caused by factors such as the material of the conductor, its length, and its cross-sectional area.
electrons
An electric circuit is best described as a loop. the flow of electrons
Parallel.
parallel circuit.
A series is an electric circuit with a single path.A parallel circuit is an electric circuit with multiple paths.
No, electric lights come in both parallel and series circuit.
A circuit with more than one path through which electrons can flow is called a parallel circuit. In a parallel circuit, the components are connected across different branches, allowing for multiple paths for the electric current to travel. This design allows components to operate independently and provides added reliability in case one path is disrupted.
It is a series electrical circuit.
a parallel circuit.
It is a flow of electrons.
A voltmeter is a device to measure the voltage in a electric circuit, and must have be connected in parallel to it.
parallel
series circuit
The conservation of charge in a parallel circuit means that the total amount of electric charge entering the circuit must equal the total amount of electric charge leaving the circuit. This principle ensures that electric charge is neither created nor destroyed within the circuit, maintaining a constant flow of charge throughout the parallel branches.