What is the Difference Between Alternating Current (AC) and Direct Current (DC)?
🆚 Go to Comparative Table 🆚The main difference between alternating current (AC) and direct current (DC) lies in the direction in which the electrons flow. Here are the key differences between AC and DC:
Alternating Current (AC):
- Electrons change direction periodically, going forward and then backward.
- Voltage level also reverses along with the current.
- AC is used to deliver power to houses, office buildings, etc..
- Generating and transporting AC across long distances is easier.
- AC can power electric motors used in appliances like refrigerators, washing machines, etc..
Direct Current (DC):
- Electrons flow steadily in a single direction.
- Provides a constant voltage or current.
- Major use is to supply power to electrical devices and charge batteries.
- Examples include mobile phone batteries, flashlights, flat-screen televisions, and electric vehicles.
In summary, AC is characterized by its periodic change in direction and voltage, while DC maintains a constant direction and voltage. AC is commonly used for power transmission and large appliances, while DC is used for electronic devices and battery charging.
Comparative Table: Alternating Current (AC) vs Direct Current (DC)
The main difference between Alternating Current (AC) and Direct Current (DC) lies in the direction in which the electrons flow. Here is a table comparing the two types of current:
| Feature | Alternating Current (AC) | Direct Current (DC) |
|---|---|---|
| Direction | Electrons reverse their direction periodically, flowing forward and then backward | Electrons flow steadily in a single direction |
| Frequency | Typically 50Hz or 60Hz, depending on the country | Frequency is zero |
| Magnitude | Current magnitude varies with time | Current magnitude is constant |
| Flow of Electrons | Electrons switch directions, moving forward and backward | Electrons move steadily in one direction |
| Generation | Generated by alternators | Generated by photovoltaic cells, generators, and batteries |
| Transmission | Easier to transform between voltage levels, making high-voltage transmission more feasible | Not suitable for long-distance transmission, but storage is easier |
| Applications | Commonly used for household equipment, office buildings, etc. | Widely used in small electronic devices and gadgets |
| Load | AC loads can be capacitive, inductive, or resistive | DC load is always resistive |
AC is the most commonly used and preferred electric power for household equipment and office buildings, while DC is widely used in small electronic devices and gadgets.
- AC vs DC Voltage
- AC vs DC Power
- AC vs DC Motor
- AC Capacitor vs DC Capacitor
- AC vs DC Generator
- Current vs Voltage
- DC Motor vs DC Generator
- Conventional Current vs Electric Current
- Dynamo vs Alternator
- Amps vs Volts
- Parallel vs Series Circuits
- Static vs Current Electricity
- Current Transformer vs Voltage Transformer (Potential Transformer)
- Generator vs Alternator
- Watts vs Volts
- Electricity vs Magnetism
- Potential Difference vs Voltage
- Electrical Energy vs Electrical Power
- Eddy Current vs Induced Current