College Physics III – Thermodynamics, Electricity, and Magnetism
Definition
AC, or alternating current, is the flow of electric charge that periodically reverses direction, in contrast to direct current (DC) where the flow of electric charge is unidirectional. AC is the standard form of electricity supplied to homes and businesses, powering a wide range of electrical devices and appliances.
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AC is the dominant form of electricity used in household and commercial power systems due to its ability to be easily transformed to different voltages.
The frequency of AC in North America is typically 60 Hz, while in most other parts of the world it is 50 Hz.
AC allows for the use of transformers, which are essential for the efficient transmission and distribution of electricity over long distances.
The sinusoidal waveform of AC enables the use of electronic devices and motors, which rely on the periodic reversal of current flow.
AC is generally considered safer than DC for high-voltage applications, as it can be more easily interrupted in the event of a fault or short circuit.
Review Questions
Explain how the use of AC in household wiring and electrical safety are related.
The use of AC in household wiring and electrical safety are closely connected. The ability to easily transform AC voltage allows for the efficient distribution of electricity from power plants to homes and businesses. Additionally, the periodic reversal of current flow in AC makes it generally safer than DC for high-voltage applications, as it can be more easily interrupted in the event of a fault or short circuit. This helps to mitigate the risk of electrical shocks and fires, contributing to the overall electrical safety of residential and commercial buildings.
Describe the role of AC in the operation of electric generators and the phenomenon of back EMF.
Electric generators convert mechanical energy into electrical energy by inducing an alternating current (AC) in their windings. As the generator's rotor spins, it creates a changing magnetic field that induces a voltage, or electromotive force (EMF), in the stator windings. This induced EMF is an AC voltage, which can then be used to power electrical devices. The phenomenon of back EMF, where the generator's output voltage opposes the input mechanical force, is a crucial aspect of generator operation and must be accounted for in the design and control of these systems.
Analyze how the characteristics of AC sources, such as frequency and voltage, are important in the context of AC Sources.
The characteristics of AC sources, particularly frequency and voltage, are crucial in the context of AC sources. The frequency of the AC supply, typically 50 or 60 Hz, determines the rate at which the current and voltage alternate direction. This frequency must be maintained within tight tolerances to ensure the proper operation of electrical equipment and appliances. Additionally, the voltage of the AC supply must be regulated to appropriate levels, as both over-voltage and under-voltage can cause damage to connected devices. Transformers are often used to adjust the voltage of AC sources to match the requirements of the load, enabling the efficient distribution and utilization of electrical power.
Related terms
Frequency: The number of complete AC cycles that occur per unit of time, typically measured in Hertz (Hz).
Voltage: The potential difference between two points in an electrical circuit, which drives the flow of AC.
Transformer: A device used to increase or decrease the voltage of an AC supply, allowing for efficient transmission and distribution of electricity.