what is DC and AC current..??what are the advantages of them..??
Answers
Answer:
Following are the advantages of alternating current over direct current: AC is less expensive and easy to generate than DC. The distance covered by AC is more than that of the DC. The power loss during transmission in AC is less when compared to the DC.
Explanation:
good morning have a great day ahead
Answer:
Alternating current is produced within most types of power plants by spinning generators. The direction of current reverses, or alternates, 50-60 times per second depending on a country's standards.[1] Alternating current is the current that travels through power lines and comes through the power outlets found throughout a home or building. There are various reasons why AC was the current of choice to perform this task, which will be discussed below.
Direct current is produced by power sources like batteries, fuel cells, and solar panels. Such power sources have two terminals that are positive and negative respectively, which creates a relatively constant voltage for electrons to flow through. Current always flows in the same direction between these two terminals.[1]
Figure 1. An animation from a PhET simulation of alternating current which has been slowed down considerably.[2]
Figure 2. An animation from a PhET simulation of direct current which has been slowed down considerably.[3]
Advantages of each
Alternating current uses of varying voltage and flow of electrons within a conductor. Direct current flows in one direction and with a relatively constant current (charge flowing by a point per unit time). The way each can be manipulated, however, is what is important, and provides clear advantages for certain applications among the two.
Advantages of AC
AC is the current of choice for power plants and the electrical grid as a whole. When a plug is connected to an electrical outlet, alternating current comes out, providing power to countless devices like light bulbs and refrigerators. AC is preferred for this application because:
There are cheap and reliable ways of increasing or decreasing the voltage using transformers, which minimizes power loss in electrical transmission.
Resistance reduces the energy transmitted in a wire. By increasing the voltage on the wires to very high voltages for long distance transmission, this loss can be reduced. The loss of power () is given by the equation:[4]
where:
is the current in amperes
is the resistance in ohms
Increasing the voltages the grid transmits electricity reduces this lost power. As the voltage gets higher, the current decreases proportionally because the transmitted electrical power (energy per unit time) remains the same. For example, if the voltage is increased by a factor of 100, the current must decrease by a factor of 100 and the resulting power lost will be decreased by 1002 = 10000. However there is a limit, being that at extremely high voltages (2000 kV) the electricity begins to discharge resulting in high losses.[4]
Efficient transmission saves power companies and consumers a lot of money, which helps reduce pollution since power plants do not need to make up for lost electricity by using more fuel.
Other advantages of AC include:[5]
Low maintenance costs of high speed AC motors.
Easy to interrupt the current (ie. with a circuit breaker) due to the current going to zero naturally every 1/2 cycle. For example, a circuit breaker can interrupt about 1/20th as much DC as AC current.
Advantages of DC
A big advantage of direct current is that it is easier to change the speed of a DC electric motor than it is for an AC one. This is useful in many applications, such as electric and hybrid cars.[5]
Direct current is used in essentially all consumer electronics, since transistors (the building blocks of modern electronics) rely on it to operate. Devices that use DC current include cell phones, laptops, TVs and much more.
Direct current may also be used to transmit electricity with even greater efficiency than alternating current over extremely large distances by use of HVDC transmission (high-voltage direct current). Along with higher efficiency, HVDC also allows for different AC systems