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These electrons are called "outershell electrons" or "valence electrons."

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Hydrogen- 1 electron

Helium- 2 electrons

Litium- 3 electrons

Beryllium- 4 electrons

Boron- 5 electrons

Unless ionized, the atomic number of an element will say how many protons and electrons the atom will have.

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The valence electrons

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Free electrons are produced in ß- decay, the first electrons were produced in the big bang

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No. But beta particles can either be electrons, or anti-electrons.

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Electrons involved in bonding between atoms are valence electrons.

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Valence electrons are the electrons that are held most loosely in an atom. These electrons are involved in chemical bonding and determine the reactivity of an element.

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These are the external electrons.

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Electrons found in the outermost energy level of an atom are called valence electrons. These electrons are involved in forming chemical bonds with other atoms, which determines the atom's reactivity and behavior in chemical reactions. The number of valence electrons an atom has contributes to its position in the periodic table and helps predict its chemical properties.

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Electrons in the outermost principal energy level are called valence electrons.

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Electrons are arranged in shells around the atom.

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Photo electrons. So current due to these photo electrons is named as photo electric current.

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shared between the atoms or transferred from one atom to another to form chemical bonds.

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Hydrogen atoms share electrons in a covalent bond.

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Yes , X-rays consist of first moving electrons ,because high voltage between cathode and anode causes the electrons to accelerate toward the anode,When the electrons strike the anode's target area, X-rays are emitted.

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The electrons that chlorophyll loses to the electron transport chain are replenished by water molecules, which are split into oxygen, protons, and electrons during the light-dependent reactions of photosynthesis.

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Electrons move in a circuit and have millions and millions of collision's.

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Electrons in uranium are arranged in energy levels and orbitals around the nucleus. Uranium has 92 electrons, with each electron occupying a specific orbital based on the Aufbau principle. The outermost electrons are involved in bonding and chemical reactions, determining the element's properties.

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Electrons are lost when forming a xenon ion because xenon, a noble gas, tends to lose electrons to achieve a stable octet configuration in its outer energy level. Xenon can lose up to 8 electrons to form Xe2+ or Xe4+ ions.

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All electrons have an equal negative charge (-1 standard electron charge), which is opposite to the standard proton charge (+1).

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In a neutral atoms, the numbers of protons and electrons must be the same, because each of these particles has the same magnitude of electrical charge.

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Group 18 elements all have an outer shell of 8 electrons, s2 p6

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electrons are negitively charged, they are attracted to positive charge. Either a proton or positively charged atom.

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The 19th element is potassium, which has 19 electrons. These electrons are distributed in energy levels or shells around the nucleus following the rules of electron configuration.

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subatomic particles with a negative charge. They orbit the nucleus of an atom in specific energy levels and are involved in chemical bonding. They are essential for the behavior of matter at the atomic and molecular levels.

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During non-cyclic electron flow, electrons come from water molecules that are split by photosystem II. These electrons replace the ones lost by photosystem II as they are passed along the electron transport chain.

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Electrons with the same energy occupy the same energy level within an atom. These electrons are referred to as degenerate electrons because they have the same energy state and cannot be distinguished from each other. This is a fundamental principle of quantum mechanics known as the Pauli exclusion principle.

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In a localized bond, electrons are shared between two specific atoms, while in a delocalized bond, electrons are shared over multiple atoms or molecules. This delocalization leads to the formation of structures like resonance hybrids.

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Electrons orbit the atom's nucleus in specific energy levels, also known as electron shells or orbitals. The electrons are arranged in these levels based on their energy and distance from the nucleus.

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Electrons with l equals 3 are in the f orbital. The f orbital has a complex shape with 7 suborbitals, each of which can hold up to 2 electrons.

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Electrons do not readily flow through insulating materials, which have a high resistance to the flow of electric current due to their tightly bound electrons. Examples of insulating materials include rubber, plastic, and glass.

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Yes, electrons can have different energy levels within an atom. These energy levels are known as electron shells. Electrons in higher energy shells are farther from the nucleus and have more energy than electrons in lower energy shells.

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They are leptons, which include neutrinos too.

There are many types of leptons, the electron, the electron neutrino, the muon, the muon neutrino, the tau, and the tau neutrino.

Hope this helps.

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Electrons farther from the nucleus are said to be of higher energy levels or higher orbitals. This means they have more energy and are less tightly bound to the nucleus compared to electrons closer to the nucleus.

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Electrons carry a negative charge of -1.6 x 10^-19 coulombs. One electron has a charge of -1.6 x 10^-19 C.

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Barium (Ba) is located towards the bottom of the group because it has more energy levels and shielding effect from inner electrons, leading to decreased attraction for valence electrons. This is due to increased distance from the nucleus and more electron-electron repulsions.

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Outside the nucleus

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