q=it
so q=12 x (300sec)
= 3600 C
Electrons are called electric charge. They are responsible for electric current.
Electric current is the flow of charge from one place to another. Charge is carried by electrons, so current can be defined as the number of electrons per second that pass through a given area.
current
By moving a stream of electrons, we have an Electric Current. Which is very useful and we can make 'electric light' out of the current flow. Also we can generate a magnetic field with our current flow. Such as in 'electric motors'. We can also use the charge on the electrons to charge up an insulated piece of material. Such as in a 'foil electrometer'. Or in an 'electro static voltmeter', useful for very high voltages. These also respond to the RMS of a voltage.
A battery contains a charge of electrons. When these electrons leave the battery and travel through a circuit that is described as current.
An electric current goes through an electric circuit, if it is closed.
Electrons are called electric charge. They are responsible for electric current.
Electric Current is the flow of electrons and hence charge
Electric current is simply the flow of free electrons in a conductor. It is usually defined as the rate of charge flow, because the free electrons represent an electric charge.
Electric current is the flow of charge from one place to another. Charge is carried by electrons, so current can be defined as the number of electrons per second that pass through a given area.
An electric current. <<>> The term used for the flow of electrons through a conductor is amperage.
Electric current is electric charge in motion. Most electric charge is carried by the electrons and protons within an atom and is affected by conductivity of elements ie copper.
Current is the flow of electric charge or the rate of the flow of an electric charge through a conductor.
current
An electric current involves the flow of electrically charged particles - usually electrons, but it may also be other particles, with a positive or negative charge. Now, to say that an electric current "is" a flow of charged particles is an oversimplification - the situation is a bit more complicated.
Charge, in the form of electrons, flow through a circuit. This is called electric current. 1 amp = 1 coulomb of charge per second flowing past a point in the circuit.
If a voltage is applied, electrons (or other charge carriers) are subjected to an attraction towards one side, and a repulsion from the opposite side. This results in the current, i.e., the flow of charge carriers.