Bromine has -1 charge and Lithium has +1 charge. Therefore,only one lithium ion is required to react with a bromine ion.
a bromide ion is formed, the ion formed has a -1 charge, and the ion formed is an anion
The charge of Bromine would be -1.
Bromine forms anion. It gets a charge of -1 to form bromide ion.
"Bromine" is the name of an atom or an element. The corresponding ion is named "bromide".
-1
Bromine has -1 charge and Lithium has +1 charge. Therefore,only one lithium ion is required to react with a bromine ion.
A bromine ion with only 26 electrons is not possible. A bromine atom has 35 electrons and it can't loose 9 electrons.
A bromine ion has a -1 charge. That's because it is a halogen, and it is an electron "borrower" which wants to steal an electron to "complete" its outer electron shell. When it snags an electron to fulfill that tendancy of atoms to attain inert gas electron configuration, it ends up with that "extra" electron and a -1 charge. This is typical of all halogens, those elements that make up the Group 17 elements.
a bromide ion is formed, the ion formed has a -1 charge, and the ion formed is an anion
The charge of Bromine would be -1.
Bromine forms anion. It gets a charge of -1 to form bromide ion.
The charge that bromine forms in compounds is -1. This is because it is a type of halogen that takes electrons to fill its outer shell.
The bromine ion is referred to as bromide, and it is Br^-
This means that there are two bromines in magnesium bromide, much like there are two hydrogens in water, H2O. This occurs because when magnesium forms an ion it has a charge of (+2), and when bromine forms an ion, it has a charge of (-1), Thus, it takes 2 bromines to neutralize the charge of the magnesium.
"Bromine" is the name of an atom or an element. The corresponding ion is named "bromide".
Lithium ion is Li+ and a bromine ion (called a bromide ion) is Br- and the compound formed from them would be LiBr.