Silver is a metal element. There are 47 electrons in a single atom.
isotope of silver
There are three electrons in boron's outer energy level.
Phosphorus has 3 unpaired electrons in its outermost shell.
Gallium (Ga) has 3 valence electrons.
there are a maximum of 18 electrons on the level 3 or the third shell
Silver is a metal element. There are 47 electrons in a single atom.
The number of protons in a atom is equal to the atomic number, therefor Ag has 47 protons. The number of protons and neutrons in an atom is equal to the atomic mass, therefor (108-47= 61) Ag has 61 neutrons. The number of electrons is equal to the number of protons therefor Ag has 47 electrons.
If Ag+ is converted to Ag, it has gained electrons. Ag+ indicates that silver has lost one electron, so when it is converted back to Ag, it means that electron has been gained back.
Ag+ (apex)
Ag- from Mav student D
Ag is the element Silver. Ag has more electrons than Ag+as for the element to become positively charged through a process called oxidation in which Ag has given up an electron to another element in order to obtain a positive charge. Another way to look at it is the "+" indicates a loss of a negatively charged particle which, in this case, is an electron. Proper Half-Reaction: Ag+ + e- ---> Ag
What you will need for "How many protons neutrons and electron isotope Ag have?"AgPencilPaperNow:Take pencilTake paperWrite "Too much".And that's it!
In the redox reaction AgNO3 + NaNO3 + Ag, silver (Ag) is reduced from Ag+ to Ag with the gain of one electron. Therefore, one electron is transferred in this reaction.
Iron (Fe) is the reducing agent in the reaction. It donates electrons to silver nitrate (AgNO3), causing the silver ions to gain electrons and form solid silver (Ag).
Silver (Ag) has 47 protons, 47 electrons and 61 neutrons, with an atomic number of 47 and atomic mass of 108.
The Ag-Ag bond in elemental silver (Ag) is a metallic bond, where the positively charged silver ions (Ag+) are surrounded by a "sea" of delocalized electrons that hold the ions together. This bond is responsible for the high electrical and thermal conductivity of silver.
Fe(s) + 3AgNO3 ---> Fe(NO3)3 + Ag(s) The oxidation # of Ag on the left is 1+ and on the right it is zero. It has gained electrons and has been reduced.