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Usage Examples
Filter by Meaning In an electrical circuit, electrons flow from the negative terminal to the positive terminal of a battery.
The photocopying machine transfers toner onto paper by attracting electrons.
Electrons in the outer shell determine the chemical properties of an atom.
The behavior of electrons determines the properties of materials in electronics.
The citizens electrons their favorite candidate for the position of mayor.
The members of the organization electrons their leaders to serve on the executive board.
The silicon in computer chips allows the flow of electrons, enabling data processing.
The electrolyte in the battery facilitates the movement of electrons, enabling the flow of electric current.
The conductive ink contains metallic nanoparticles that allow the flow of electrons for circuit printing.
The flow of electrons in the circuit powers the light bulb.
The energy levels of electrons in an atom are quantized.
Electrons in a semiconductor can be excited to higher energy states by absorbing photons.
Electrons flow through a wire to create an electric current.
The cathode ray tube works by directing a stream of electrons towards a fluorescent screen.
Electrons in the outer shell of an atom are involved in chemical bonding.
Electrons are negatively charged particles found in all atoms.
The collision of electrons with atoms in the air produces lightning.
Electrons are responsible for the conduction of electricity in metals.
Electrons in a semiconductor material allow for the flow of electrical signals in electronic devices.
Electrons orbit around the nucleus of an atom.
In solar cells, photons from the sun's energy excite electrons, creating electricity.
The behavior of electrons in a superconductor is governed by quantum mechanics.
Cathode ray tubes use streams of electrons to produce images on a screen.
Electrons emitted from a hot metal surface in a vacuum tube form a thermionic current.
Electrons in a particle accelerator collide to produce high-energy reactions.
Electrons play a crucial role in chemical reactions.
Electrons are emitted from a cathode in a vacuum tube.
Electrons are used in electron microscopy to visualize tiny structures.
Electrons in solar cells convert sunlight into electricity.
Electrons flow through the wires in an electric circuit.
Electrons carry signals in the nervous system, allowing us to think and move.
Electrons are involved in the transmission of signals in the nervous system.
The behavior of electrons determines the conductivity of a material.
The interaction between protons and electrons forms the basis of quantum mechanics.
The manipulation of electrons is essential for electronic devices.
Electrons in a cathode ray tube create the image on a television screen.
Electrons are responsible for the conductivity of metals.
The process of corrosion occurs when electrons are transferred from a metal to a corrosive substance.
The solar panels convert sunlight into electrical energy by harnessing the movement of electrons.
Electrons in the Earth's atmosphere cause the phenomenon known as the Northern Lights.
The emission of light in a fluorescent bulb is due to the collision of electrons with mercury atoms.
Free electrons in metals allow for easy heat conduction.
Electrons in a solar panel absorb photons to generate electricity.
The movement of electrons determines the conductivity of a material.
The electrons in the valence band contribute to the electrical conductivity of the semiconductor.
In a photovoltaic cell, sunlight excites electrons, generating electricity.
The flow of electrons in a circuit is measured in amperes.
Electrons flow through wires to power electrical devices.
The movement of electrons through the wire creates an electric current.
The flow of electrons in a circuit can power various electrical devices.
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