Definition of ELECTRIC LINE


An Electric Line, also known as an electric power line or simply a power line, is a noun and refers to a physical structure or conductor used for transmitting electrical power from one location to another. Here’s a breakdown of its main features and functions:

Transmission of Electrical Power Electric lines serve as conduits for transmitting electricity over long distances, typically from power plants or generating stations to distribution centers, industrial facilities, and residential areas. They form the backbone of electrical grids, enabling the distribution of electricity to homes, businesses, and other consumers.

Components Electric lines consist of several essential components, including conductors, support structures, insulators, and protective equipment. The conductors, usually made of aluminum or copper, carry the electrical current. Support structures, such as utility poles or transmission towers, provide the framework for suspending the conductors. Insulators prevent the flow of electricity to the supporting structure, ensuring the safe transmission of power. Additionally, protective equipment, such as fuses and circuit breakers, helps safeguard the integrity of the electric line and prevent power outages or electrical hazards.

Types of Electric Lines There are various types of electric lines, each designed for specific purposes and operating voltages. Transmission lines are used for transmitting high-voltage electricity over long distances, while distribution lines deliver lower-voltage power to end-users. Subtransmission lines bridge the gap between transmission and distribution lines, transporting medium-voltage electricity within a localized area. Other specialized lines, such as overhead and underground lines, cater to specific terrain, environmental, or aesthetic requirements.

Challenges and Considerations Designing, constructing, and maintaining electric lines present various challenges and considerations. Factors such as terrain, weather conditions, environmental impact, and regulatory requirements influence the planning and implementation of electric line projects. Engineers and technicians must address issues related to line capacity, voltage regulation, reliability, and safety to ensure efficient and dependable electricity transmission.

Impact on Society Electric lines play a crucial role in modern society, facilitating the reliable and widespread distribution of electrical power for various applications, including lighting, heating, cooling, transportation, communication, and industrial processes. They support economic development, enhance quality of life, and enable technological advancements by providing access to electricity to communities worldwide.

In summary, electric lines are essential infrastructure components for transmitting electrical power over long distances and distributing it to end-users. They consist of conductors, support structures, insulators, and protective equipment and serve as the backbone of electrical grids, enabling the efficient and reliable delivery of electricity for societal needs.

Examples of ELECTRIC LINE in a sentence

  • The workers were repairing the damaged electric line after the storm knocked out power to the neighborhood.
  • The electric line ran overhead, delivering electricity to homes and businesses along the street.
  • The train was delayed due to a fallen tree that had knocked down an electric line on the tracks.
  • The telecommunications company installed a new electric line to improve internet connectivity in the area.
  • Birds often perch on the electric lines running through rural areas.
  • The city’s skyline was dotted with tall buildings and crisscrossed by a network of electric lines.
  • The electric line hummed softly as electricity flowed through it, powering the nearby machinery.
  • The safety regulations required workers to wear protective gear when working near electric lines to prevent accidents.


The term electric line refers to the infrastructure used for transmitting electricity over long distances, forming the backbone of electrical distribution networks worldwide. Exploring its etymology and function unveils its critical role in facilitating the efficient distribution of electrical power.

  • Composite Term: “Electric line” combines the adjective “electric” with the noun “line.”
  • Roots in Electricity: “Electric” derives from the Latin “electricus,” originally associated with the properties of amber and static electricity.
  • Concept of Linearity: “Line” refers to a path or route, suggesting a linear structure for the transmission of electricity.

In conclusion, electric line epitomizes the fusion of scientific discovery and practical engineering in the realm of electricity. Its etymology reflects the historical exploration of electrical phenomena, while its essential function underscores its indispensable role in powering modern society.


  • Power cable
  • Electrical wire
  • Conductor
  • Transmission line
  • Energy conduit
  • Wiring system
  • Electric wiring
  • Energy line


  • Unpowered cable
  • Inert wire
  • Non-conductive line
  • Static conduit
  • Disconnected wiring
  • Unenergized line
  • Powerless conductor
  • Inactive energy path


  • Grid connection
  • Power distribution
  • Energy network
  • Electrical infrastructure
  • Transmission system
  • Voltage pathway
  • Wire network
  • Utility lines

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