noun a stable subatomic particle with a charge of negative electricity, found in all atoms and acting as the primary carrier of electricity in solids
Electrons are involved in chemical bonding and determine the chemical properties of elements.
The electron is a subatomic particle with a negative electrical charge that is found in all atoms.
Electrons flow through conductors in electrical circuits, carrying electrical energy.
Electrons exhibit wave-particle duality and are described by quantum mechanics.
In materials science, electrons play a crucial role in determining the electrical conductivity and other properties of solids.
Electrons are fundamental particles that are studied extensively in the field of physics. Physicists use the concept of electrons to explain various phenomena in the realm of quantum mechanics and electromagnetism.
Electrical engineers work with electrons on a daily basis, as they are responsible for designing and maintaining electrical systems. Understanding the behavior of electrons is crucial for ensuring the proper functioning of electronic devices and power systems.
In the field of chemistry, electrons play a key role in chemical bonding and reactions. Chemists study the behavior of electrons in atoms and molecules to understand how different substances interact with each other.
Materials scientists study the properties and behavior of different materials, including how electrons move within them. By manipulating the behavior of electrons, materials scientists can develop new materials with specific characteristics for various applications.
While not the primary focus, biologists may encounter the concept of electrons in the context of cellular metabolism and energy production. Understanding how electrons are transferred in biological systems is important for studying processes like photosynthesis and respiration.