The atom always stays in maximum stability.. The orbital with full electrons , no electron or half electrons is maximum stable ... In the case of Cu the electron moves in 3d orbital because in that case the 3d orbital is going to be filled with maximum 10 electrons hence the 4s orbital is going to be filled with half number of electrons - 1 electron .....
So the last electron goes in the 3d orbital except going into 4s orbital..... therefore the electron configuration of Cu is [Ar]3d10 4s1 .....The reason is same for the atom of Silver.....
The observed electronic configurations of copper and silver are:-
Cu [Ar] 3d10 4s1
Ag [Kr] 4d10 5s1
These elements are exceptions to the aufbau principle which predicts that the 4s orbital would be filled before the 3d the 5s before the 4d. The normal explanation is that a fully filled d sublevel is imparts extra stability. A half filled subshell appears to give extra stability too. Whether this is the real underlying reason for the stability is still debated.
The electron configuration for Cu is [Ar]3d104s1. The electron configuration for Cu+ is [Ar]3d104s0.
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
Silver is a metal therefore it loses an electron when it reacts to form Ag+
In most reactions, Ag atoms loses an electron apiece to form the silver cation. This cation has a plus one charge. It is represented as Ag+.
In ioic compounds an electron is transferred forming the Ag+ ion.
Yes Silver (Ag) has atomic number 47. It is in column 11 (IB) Those elements in the middle of the chart, as well as the Lanthanides and Actinides are considered Transition Elements (metals).
What you will need for "How many protons neutrons and electron isotope Ag have?"AgPencilPaperNow:Take pencilTake paperWrite "Too much".And that's it!
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
Ag .
Silver is a metal therefore it loses an electron when it reacts to form Ag+
Because plant diversity is way more limited in ag fields
In most reactions, Ag atoms loses an electron apiece to form the silver cation. This cation has a plus one charge. It is represented as Ag+.
Ag has plus one state.There is no affect from 2
As the definition of a Lewis acid says:"Capable of accepting electron pair (from a (Lewis) base".So H+ and Ag+ are both Lewis acids compared in the following reaction with ammonia:(in which the N-atom is donating the unbound electron pair as being a 'Lewis' base)H+ + NH3 --> HNH3+Ag+ + 2NH3 --> Ag(NH3)2+[As you can see the 'Lewis' definition is much wider than the 'Bronsted/Lowry': it needs free places for an electron pair, not H+]
Ni Se and Cd
As the definition of a Lewis acid says:"Capable of accepting electron pair (from a (Lewis) base".So H+ and Ag+ are both Lewis acids compared in the following reaction with ammonia:(in which the N-atom is donating the unbound electron pair as being a 'Lewis' base)H+ + NH3 --> HNH3+Ag+ + 2NH3 --> Ag(NH3)2+[As you can see the 'Lewis' definition is much wider than the 'Bronsted/Lowry': it needs free places for an electron pair, not H+]
In ioic compounds an electron is transferred forming the Ag+ ion.
Yes Silver (Ag) has atomic number 47. It is in column 11 (IB) Those elements in the middle of the chart, as well as the Lanthanides and Actinides are considered Transition Elements (metals).