There would need to be Two silver atoms to for an ionic bond with Six oxygen atoms. (2+6=8)
Lithium: Li has 1 valence electron, so its Lewis dot diagram is Li: . Bromine: Br has 7 valence electrons, so its Lewis dot diagram is :Br:. Carbon: C has 4 valence electrons, so its Lewis dot diagram is :C:. Hydrogen: H has 1 valence electron, so its Lewis dot diagram is H: . Silver: Ag has 1 valence electron, so its Lewis dot diagram is Ag: . Oxygen: O has 6 valence electrons, so its Lewis dot diagram is :O:. Iron: Fe has 2 valence electrons, so its Lewis dot diagram is :Fe:. Potassium: K has 1 valence electron, so its Lewis dot diagram is K: . Oxygine: I'm not familiar with an element called "oxygine". It may be a misspelling of oxygen. If so, refer to oxygen's Lewis dot diagram above.
Silver does not readily react with nitrogen or oxygen to form stable compounds under normal conditions. However, silver can react with nitrogen and oxygen compounds in specific conditions to form various silver compounds.
Examples of monovalent elements include hydrogen, sodium, and potassium. These elements have one valence electron, which allows them to easily form ions with a +1 charge.
The combustion of silver oxide produces silver metal and oxygen gas. The chemical equation for this reaction is: 2Ag2O(s) → 4Ag(s) + O2(g). This is a redox reaction where silver oxide is reduced to silver metal and oxygen is oxidized to form oxygen gas.
Silver does not combust as it is not a very reactive metal. It corrodes slowly by reacting with oxygen in the atmosphere.
Silver has one valence electron.
Silver has one valence electron.
one electron in the 5s orbital
Lithium: Li has 1 valence electron, so its Lewis dot diagram is Li: . Bromine: Br has 7 valence electrons, so its Lewis dot diagram is :Br:. Carbon: C has 4 valence electrons, so its Lewis dot diagram is :C:. Hydrogen: H has 1 valence electron, so its Lewis dot diagram is H: . Silver: Ag has 1 valence electron, so its Lewis dot diagram is Ag: . Oxygen: O has 6 valence electrons, so its Lewis dot diagram is :O:. Iron: Fe has 2 valence electrons, so its Lewis dot diagram is :Fe:. Potassium: K has 1 valence electron, so its Lewis dot diagram is K: . Oxygine: I'm not familiar with an element called "oxygine". It may be a misspelling of oxygen. If so, refer to oxygen's Lewis dot diagram above.
Materials used for conductors generally contain 1 to 3 valence electrons, such as copper, silver, and gold. These valence electrons are free to move and contribute to the material's conductivity.
The noble gas configuration of silver is [Kr] 4d^10 5s^1, where [Kr] represents the electron configuration of the noble gas krypton. Silver has one valence electron in the 5s orbital, making it easily be oxidized.
In silver there are 2 electrons in 3s orbital, 6 electrons in 3p orbitals and 10 electrons in 3d orbitals. So there is a total of 18 electrons
Silver has to give up 1 electron to achieve a pseudo noble gas electron configuration. With its atomic number being 47, silver has an electron configuration of [Kr] 4d^10 5s^1. Giving up its one valence electron from the 5s orbital will result in a stable pseudo noble gas electron configuration similar to argon.
The outer electron shell of an atom is called the valence shell. The electrons in the valence shell are called valence electrons. The valence electrons of most metals are not very well bound to the atom making them good conductors. The kinetic energy of the valence electrons of an element is determined by the amount of valence electrons (less is better, one is optimal) and the distance of the valence electrons from the nucleus. Example: Silver is the best metallic conductor, it has five shells with one electron in it's outer shell, copper has four shells with one electron in it's outer shell. Silver's fifth shell is further away from the nucleus than copper's fourth shell making silver a better conductor even though they both have one valence electron.
The electronic configuration of silver is [Kr]4d105s1. If it loses 1 electron then it will have completely filled d orbitals as its valence orbitals and is stable. It will never attain the electronic configuration of noble gas.
It would be the atomic symbol for silver (Ag) with however many dots around it as the number of valence electrons. The dots are placed with a maximum of two on each side bringing the highest total to eight, reserved for the noble gases. The Lewis dot diagram for silver would be .Ag (the dot can go on any side; it does not make a difference.)
In the element Silver there are 1 or 2 valence electrons.THIS is a FACT(Answered by MA12099:D)