They both have the same current.
A current greater than which a circuit is designed to carry , may melt wires or damage elements of the circuit.This is known as overloading of current.
Its purpose is to provide approximately the same voltage to a load as what is input to the amplifier, but at a much greater current. In other words, it has no voltage gain, but it does have current gain.
since circuit breaker consists of coils they get heated up when high current flows, when this happens the coil get energised and pull the moving contacts to open thus the circuit breaker opens when high current flows.
No, the resistance in a circuit does not change when voltage changes. Resistance is an inherent property of the circuit.
A voltmeter has greater accuracy when measuring direct current. This kind of current is constant unlike alternating current which has constant fluctuations.
lowest resistance
Electrical current is equal throughout a series circuit.
The current is greater than or equal to (6) divided by (the effective resistance of the circuit).
Flow of current decreases proportionately.
A current greater than which a circuit is designed to carry , may melt wires or damage elements of the circuit.This is known as overloading of current.
A series circuit is where there is only one path for the current. As a result, and as a direct consequence of Kirchoff's current law, the current at every point in a series circuit is the same. The two bulbs have the same current flowing through them.
A fuse blows when the current draw of the circuit is greater than the capacity of the fuse.
An arrangement circuit is a circuit where there is one and only way from the source through the greater part of the heaps and back to the source. This implies the majority of the current in the circuit must move through the greater part of the heaps. One illustration of an arrangement circuit is a string of old Christmas lights.
The stronger the magnetic field on your inductor the greater amount of current you will have flowing through your series circuit.
A half wave rectifier is not as effective as a full wave rectifier. With a 1/2 wave, you are throwing away one hump of the sine wave...either positive or negative portion. With a full wave rectifier you get both humps...either positive or negative. The resultant effective voltage is much greater with a full wave rectifier, because there is very little time when the voltage is zero. The half wave is zero for 1/2 of the cycle.
Its purpose is to provide approximately the same voltage to a load as what is input to the amplifier, but at a much greater current. In other words, it has no voltage gain, but it does have current gain.
since circuit breaker consists of coils they get heated up when high current flows, when this happens the coil get energised and pull the moving contacts to open thus the circuit breaker opens when high current flows.