You may ask yourself one of these questions; how do photovoltaic cells work? What is a photovoltaic cell? Although it may sound like very complicated, it is actually a very simple and straight forward item and process. As the world is slowly modernizing, it is crucial to understand the rapidly developing technological changes as the knowledge can be very useful. This article helps you understand some of the more common questions you may ask yourself about the cells that are present in solar panels.
Photovoltaic Cells - What Are They And How Do They Work?
1. What Is A Photovoltaic Cell?
Before you ask yourself complicated questions about how the cells work, you should first have a firm understand of what it is. Its definition can be found with a simple dissection of the word photovoltaic (photo = light and voltaic = energy).
A photovoltaic cell is an electrical device that captures and converts the energy of sunlight into electricity. Most are composed of semiconductors made from silicon. Have you ever noticed that some calculators just won't run out of battery and a mirror like glass present on the top of the calculator? Well, you've just found a photovoltaic cell. Since a single cell produces only a limited amount of energy, these cells are interconnected, arrayed and framed for larger uses such as solar panels. To produce a significant amount of power from this process, multiple solar panels must be installed.
A photovoltaic cell is nothing more than an individual light capturing device on the face of a solar panel. It simply catches and harnesses the sun's rays so they can be converted into electricity. Now let's examine the next question.
2. How Do Photovoltaic Cells Work?
When sunlight hits a photovoltaic cell, energy is absorbed into the semiconductor material. This energy then releases electrons which create electrical fields of power within. Normally, the energy captured by the cell then is directed by the solar panel into electrical conducing wires attached to contacts. These conducing wires then transfer the harnessed energy and are ready to be used as electrical power. Through this process, the energy from the sun can be used to light a light bulb or keep a refrigerator running cold without using electricity produced by burning precious bio fuels or poisonous coals.
Basic diagram of Phtovoltaic solar cell
Answering the question of how do these cells work and how to make use of the sun's renewable energy is a must for our planet. Solar power is a clean, pollution free and an efficient source of energy. On a good day, the sun gives off around 1,000 watts of energy per square meter of the earth's surface. Even harnessing a portion of the sun's energy could power all of our homes and could make our world a more habitable place to live in the future. Solar technology has been around for many years and improvements in the field continue through research and development every year. You've asked the question how do photovoltaic cells work; now it's time to consider how photovoltaic cells can work for you.
Note:
The above diagram is just basic, it is based on Electron theory, inaccurate quantum physics. The universe is not composed of particles from the quantum sect's "magic particle pocket". Electrons do not exist:
- Part 1: The Atomistic fallacy and psychosis of the so-called "electron" particle
- Part 2: The Atomistic fallacy and psychosis of the so-called "electron" particle
A kind of theoretical physics that correctly reflects reality, then that theory will lay the foundations for "real" technology.
Real technology about solar energy
Introduction to "real" solar technology: The tension of Ether, which leads to how to Create a solar cell - doesn't need N-P semiconductors
The way to create solar photovoltaic cells does not have to use N-P or P-N semiconductors. However, the matter of different materials is necessary.
"Real" technology - Radiant energy:
Solar Radiant Energy: Ether Elastic Technology
✔ The space itself is the loss of inertia of the dielectric. Faraday: Loss of inertia dielectric produces a magnetic field.
✔ So, the smaller the space, the higher the capacitance
✔ The dielectric is a stress of the Ether, which is elastic. It allows inductive propagation light.
✔ A technology that stimulates Ether elasticity, with resonance, produces free energy:
