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AC current fluxuates that is why it is called alternating current. DC does not fluxuate that is why it is called direct current.
Better answer"DC does not fluxuate that is why it is called direct current."If I waggle the voltage control up and down on a d.c. power supply to which a resistor is connected, the current willfluxuate. (Quite poetic, but I prefer to say fluctuate.)
An a.c. changes direction rapidly and continuously, i.e. its direction alternates.
That's why it is called alternating current.
AC current Or alternating current is constantly switching from plus to minus While DC current or direct current moves from minus to plus.
AC and DC refer to Alternating Current and Direct Current respectively. AC is the movement of electrons through a conductor while switching directions, while DC involves electrons moving steadily in a particular direction.
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JudyAC (alternating current) constantly changes direction, while DC (direct current) flows only in one direction. AC is used for long-distance power transmission because it can easily be converted to different voltages, while DC is commonly used in electronics and batteries. The voltage of AC can be easily changed using Transformers, while the voltage of DC remains constant.
AC stands for "alternating" current and DC stands for "direct" current.
If you picture current as being the same as you might see in a river, this is 'direct' current, it always flows in the same direction.
If a river had alternating current, the water would flow one direction for a short while and then change direction and flow backwards for another short while, constantly alternating between forward and backward flow.
DC flows steadily without changing, while AC is continuously reversing its polarity. A good approximation of the voltage waveform of an AC suppy is
V = Vp sin (2.pi.f.t) and it is commonly called a 'sine-wave'.
In the equation Vp is the peak voltage and f is the frequency. In each period of 1/f the voltage cycle repeats itself.
This might seem an unnecessary complication but it is easier to generate AC and it is much easier to transmit AC electricity over long distances by using transformers to raise the voltage to kilovolts so that the effect of resistance in the cables is less.
At the user another transformer converts the voltage down to a useable value, usually 120 v or 240 v, which means that people are not obliged to live beside a generator.
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How does an ac power source differ from a dc power source?
AC power sources are the adapter power sources. DC power sources are the direct power sources. DC stands for direct current, meaning it is a direct source of energy., and AC stands for alternating current, which means it is a secondary source of power.
Is a AC adapter the same as a charger?
An ac adapter converts ac current into dc current through a rectifier, and a battery charger outputs dc current at an adjustable powerful charging rate and also converts ac current to dc current to charge different sizes of batteries.
Battery ac or DC?
Batteries can provide both AC (alternating current) or DC (direct current) power, depending on the type of device they are connected to. However, most batteries themselves supply DC power. Devices that require AC power typically use an inverter to convert the battery's DC power into AC power.
Can rheostat run on AC current and DC current?
Yes, a rheostat can be used with both AC and DC currents. The rheostat's variable resistor can be adjusted to control the current flowing through a circuit, regardless of whether it is AC or DC.
What are the differences between DC wire and AC wire, and how do these differences impact their performance in electrical systems?
DC wire and AC wire differ in their ability to carry direct current (DC) and alternating current (AC) respectively. DC wire is designed to carry a constant flow of current in one direction, while AC wire is able to handle the rapid changes in current direction that occur in an AC system. These differences impact their performance in electrical systems as DC wire is more efficient for transmitting power over long distances with minimal loss, while AC wire is better suited for powering devices that require frequent changes in current direction, such as household appliances.
