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Home > Learning Center > Energy Production > What Is Electricity?
10 minute read • Graham Lumley • Last update January 2024
Electricity, the driving force behind our modern lives, is a fundamental concept that has shaped the course of human civilization. It’s an enigmatic phenomenon that fuels our homes, industries, and technologies, connecting the world in ways that were once unimaginable. But what is electricity, and how does it manifest in our daily lives?
In short, electricity is the movement of electrical charge. To understand electrical charge, you have to understand the makeup of an atom. There are positively-charged protons and neutrons with no charge in the atom’s core or nucleus. Around the nucleus, there are negatively charged electrons. Electrons aren’t always bound to the same atom – they can be moved.
To put it simply, when power plants are generating electricity, the process forces the movement of electrons between atoms and that forced movement is what allows us to generate, harness, and distribute electricity.
Electricity is a force of nature, intricately intertwined with magnetism, forming the foundation of electromagnetism—a unifying theory that underpins the behavior of charged particles and their interactions with electromagnetic fields.
Electricity powers a vast array of modern technologies and conveniences, from lights and appliances to computers and smartphones. It plays a critical role in our daily lives, fueling economic development and improving the overall quality of life.
Electricity can exist in two main forms: static electricity and current electricity.
Because we’ve only utilized electricity to power lights and appliances (and more) since the late 1800s, it may come as a surprise that humans have known about electricity for thousands of years.
These milestones set the stage for the subsequent explosion of knowledge and technological advancement in the field of electricity.
In order to understand what electricity is and how it works, you can start with the concept of the structure of the atom.
All matter, whether solid, liquid, or gas, is composed of atoms. These atoms are the building blocks of the universe, and within them reside even smaller particles: protons, neutrons, and electrons.
At the nucleus, or central core, of an atom, we find protons and neutrons. Protons carry a positive electrical charge, and neutrons have no charge at all. Together, they form the dense core of the atom, a nucleus that holds the atom’s mass and stability.
In contrast to the densely packed nucleus, electrons orbit the nucleus at varying energy levels, or “shells.” Electrons are negatively charged, and their movement around the nucleus forms a dynamic cloud of negative charge that balances the positive charge of the protons within the nucleus.
It’s the behavior of these electrons that is central to the creation of electric current. When electrons are set in motion—either by an external force like a voltage source or by changes in energy levels within the atom—a flow of electric charge is generated. This movement of electrons is what we refer to as an electric current.
For an electric current to flow through a material, it requires a conductive pathway. Conductive materials, such as metals like copper and aluminum, possess atoms that allow electrons to move freely within their structures. This movement of charged particles along the conductive pathway constitutes the flow of electric current.
The intensity of an electric current is measured in units known as amperes, often referred to as “amps.” One ampere represents a flow of one coulomb of charge per second. This unit quantifies the rate of flow of electric charge, indicating the number of electrons passing through a point in a circuit per unit of time.
As we delve deeper into the world of electricity, we encounter concepts like voltage, resistance, and the profound relationship between electric and magnetic fields, all of which collectively shape our modern technological landscape.
One of the most profound things about electricity is the intimate connection between electricity and magnetism, known as electromagnetism.
One of the most profound impacts of electricity is the way it has transformed communication. From telegraphs and telephones to the internet and smartphones, electricity has made it possible to connect with people across the globe instantly.
Before the widespread use of electricity, people relied on candles, oil lamps, and daylight for illumination. Electric lighting has extended the productive hours of the day, enabling people to work, study, and engage in leisure activities long after the sun has set.
Electric trains, trams, and more recently, electric cars and buses have changed the way we travel. Electrified transportation is not only more efficient but also helps reduce air pollution and dependence on fossil fuels.
Electricity has been a game-changer in the field of healthcare. It powers life-saving equipment like defibrillators and ventilators, enables complex surgeries with precision instruments, and supports advanced diagnostic tools like MRI machines and X-rays.
Electricity has given birth to an array of entertainment options. Radios, televisions, gaming consoles, and home theaters have become integral parts of our lives, offering endless entertainment at the flick of a switch.
Electric tools and machinery have revolutionized industries, from manufacturing to agriculture. Electricity has made production faster, more efficient, and less labor-intensive, boosting economic growth and development.
Modern conveniences like refrigerators, washing machines, and air conditioners have improved the quality of life for many. These appliances, powered by electricity, have made everyday tasks easier and more comfortable.
Electricity has been the driving force behind countless technological advancements. Computers, the internet, and smart devices have transformed the way we live, work, and interact, reshaping society in the process.
Electricity comes in two intriguing forms: alternating current (AC) and direct current (DC). These currents have shaped the way we distribute and utilize electrical energy, each with its unique advantages and applications.
The methods of generating electricity have undergone a dramatic evolution over time, from steam engines in the Industrial Revolution to modern processes.
As look past current electricity facts and into the future, these predictions about the future of electricity might come to fruition:
In the future, we could see a shift from large, centralized power plants to smaller, distributed energy production systems. More homes and businesses may generate their own electricity through solar panels, wind turbines, and other renewable sources, leading to a more decentralized and resilient energy grid.
As renewable energy sources become more prevalent, efficient energy storage solutions will become crucial. Breakthroughs in battery technology, such as solid-state batteries or flow batteries, could provide longer-lasting and more efficient energy storage, enabling a greater reliance on renewable energy.
Advanced technologies like machine learning, artificial intelligence, and IoT will revolutionize the way electricity is distributed and consumed. Smart grids will be able to predict and respond to changes in demand, optimize energy distribution, and integrate seamlessly with renewable energy sources.
Electric vehicles (EVs) are already on the rise, and this trend is expected to continue. In the future, we may see a fully electrified transportation sector, including not only passenger cars but also buses, trucks, and even ships. This shift could dramatically reduce emissions and pollution from transportation.
While wireless charging for small devices is already a reality, future advancements in technology may enable long-distance wireless energy transmission. This could eliminate the need for power lines and make it easier to bring electricity to remote and inaccessible areas.
Hydrogen has the potential to become a significant energy carrier in the future, as it can be produced from renewable energy sources and used in fuel cells to generate electricity. A hydrogen economy could provide a sustainable and efficient way to store and transport energy.
Although nuclear fusion has been elusive for decades, breakthroughs in this field could provide a virtually limitless and clean energy source. Fusion reactors would produce minimal radioactive waste and could revolutionize the way we generate electricity.
As technology improves and becomes more affordable, electricity could become accessible to millions of people currently living without it. This would have a profound impact on global development, improving education, healthcare, and economic opportunities for countless individuals.
Future advancements in technology and materials science may lead to significant gains in energy efficiency. Energy-efficient appliances, smart buildings, and better insulation could reduce energy consumption and decrease our overall carbon footprint.
As more players enter the energy market, from individual homeowners with solar panels to large corporations investing in renewable energy, the dynamics of energy markets could change. Peer-to-peer energy trading and dynamic pricing models could become more prevalent, giving consumers more control over their energy consumption and costs.
The force of electricity has captured the imagination of scientists, inventors, and curious minds throughout history and continues to shape our world in transformative ways. From the early sparks of static electricity to the complex interconnected grids that power entire nations, the journey of electricity is a testament to human ingenuity.
Responsible energy consumption and groundbreaking innovations required to for that responsible consumption remain paramount.
Amid this landscape of progress, one standout player in the energy sector is BKV Energy. BKV Energy is a Texas energy company offering affordable electricity plans to families across the state. When you choose BKV Energy, you’re not only choosing to power your life; you’re choosing to contribute to a more reliable, more sustainable future for your loved ones and the environment.
Discover the different types of nuclear power plants and how they work
Electricity has a fascinating and complex history that stretches back far beyond the modern era. From the ancient Greeks who discovered static electricity to the scientific revolutions of the 18th and 19th centuries that unveiled its true potential, the journey of electricity is a tale of curiosity, experimentation, and groundbreaking…
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