Yes. According to Einstein, the mass of an electron can be converted into energy, which will then dissipate. The famous E=mc2.
inner shell electrons : the electrons that are not in the the highest occupied energy level .
it's neither created or destroyed
Hydrogen shares its electrons to complete the octate so it gains 1 electrons. it can also its electrons.
Valence Electrons
Everything is made up of atoms and atoms contain electrons. Therefore I suppose that technically yes you do eat electrons as everything you eat has electrons in it.
They are destroyed in "K capture" decay when a proton in the nucleus captures an electron, becoming a neutron.They are destroyed in matter-antimatter annihilation when they meet a positron, a gamma ray photon is emitted.
Atoms can be ionized in chemical reactions when they gain or lose electrons. In some reactions, atoms may rearrange into different molecules or compounds. However, atoms are not destroyed or vaporized during chemical reactions; they are simply rearranged into different combinations.
Without a bit more guidance on the specific topic, it's hard to know how to answer. You might say that energy is generally transferred and not destroyed, or that in chemistry electrons are transferred but not destroyed, or atoms in chemical reactions, or ...
Electrons can carry energy, such as kinetic energy or electrical energy, as they move within an electrical circuit or in an atomic structure. However, electrons themselves do not produce energy; rather, they can transfer energy from one system to another.
During a transfer of electrons between atoms, the number of electrons changes for each individual atom involved as electrons are gained or lost, but the overall number of electrons within the system remains constant. This is due to the law of conservation of matter, which states that matter can neither be created nor destroyed in a chemical reaction.
When two bodies are rubbed together, electrons can transfer from one body to the other, causing one to become positively charged (losing electrons) and the other to become negatively charged (gaining electrons). This process results in both bodies acquiring equal but opposite charges due to the conservation of charge, which states that charge cannot be created or destroyed, only transferred.
Charges cannot be created or destroyed, but they can be transferred from one object to another. When objects become charged, electrons are either added or removed, causing a redistribution of charge. The total charge in a closed system remains constant.
Static electricity cannot be destroyed, but it can be dissipated or neutralized. This can be achieved by grounding the object carrying the static charge to allow the excess electrons to flow away. Using anti-static materials or sprays can also help to reduce or eliminate static electricity buildup.
Assuming you meant atoms, no it is not. The atoms are broken into their constituent particles (IE. protons, neutrons, and electrons) but no matter is lost.
Matter can not be created nor destroyed during any process, so no matter can not be destroyed during a chemical change.
destroyed = zerstört destroyed = verwüstet
The Alhambra isn't destroyed. You can visit it.