Before doing with types of circuit it
is basic to know ohms law.
Before doing with types of circuit it
is basic to know ohms law.
Before doing with types of circuit it
is basic to know ohms law.
Before doing with types of circuit it
is basic to know ohms law.
Ohm's Law relates voltage, current and resistance:
Resistance (Ω) = Voltage (V)/ Current (I)
Resistance (Ω) = Voltage (V)/ Current (I)
A closed circuit has a complete path for current to
flow.
A closed circuit has a complete path for current to flow.
An open circuit doesn't, which means that it's not
functional. If this is your first exposure to circuits, you might think that
when a circuit is open, it's like an open door or gate that current can flow
through. And when it's closed, it's like a shut door that current can't flow
through. Actually, it's just the opposite, so it might take awhile to get used
to this concept. A fuse is a device that is used to
create an open circuit when too much current is flowing.
A short circuit is a low-resistance path, usually
made unintentionally, that bypasses part of a circuit. This can happen when two
bare wires in a circuit touch each other. The part of the circuit bypassed by
the short circuit ceases to function, and a large amount of current could start
to flow. This can generate a lot of heat in the wires and cause a fire. As a
safety measure, fuses and circuit breakers automatically open the circuit when
there is an excessive current.
In a series circuit, the same current flows through all
the components. The total voltage across the circuit is the sum of the voltages
across each component, and the total resistance is the sum of the resistances
of each component. In this circuit, V = V1 + V2 + V3 and R = R1 + R2 + R3. An
example of a series circuit is a string of Christmas lights. If
any one of the bulbs is missing or burned out, no current
will flow and none of the lights will go on.
Parallel circuits are like the smaller blood vessels that branch off from an
artery and then connect to a vein to return blood to the heart. Now think of
two wires, each representing an artery and a vein, with some smaller wires
connected between them. These smaller wires will have the same voltage applied
to them, but different amounts of current flowing through them depending on the
resistance of the individual wires.
Parallel circuits are like the smaller blood vessels that branch off from an
artery and then connect to a vein to return blood to the heart. Now think of
two wires, each representing an artery and a vein, with some smaller wires
connected between them. These smaller wires will have the same voltage applied
to them, but different amounts of current flowing through them depending on the
resistance of the individual wires.
An example of a parallel circuit is
the wiring system of a house. A single
electric power source supplies all the lights and appliances with the same
voltage. If one of the lights burns out, current can still flow through the
rest of the lights and appliances. However,
if there is a short circuit, the voltage drops to almost zero, and the entire
system goes down.
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