Bromine has seven electrons in its outermost energy level. It can get the stable electron configuration by getting one electron from another atom which makes the -1 charge.
A bromine ion can have a charge of -1.
The formula for the compound formed between lithium ion (Li+) and bromine ion (Br-) is LiBr. Lithium being a group 1 element with a +1 charge and bromine being a group 17 element with a -1 charge, they combine in a 1:1 ratio to form a stable ionic compound.
When bromine reacts to form an ion, it becomes isoelectronic with krypton. Both bromine (Br) and krypton (Kr) have 36 electrons in their neutral state. When bromine gains one electron to form the Br- ion, it now also has 36 electrons like krypton.
Bromine has -1 charge and Lithium has +1 charge. Therefore,only one lithium ion is required to react with a bromine ion.
Selenium and bromine can form an ionic bond, where selenium, a nonmetal, gains electrons to become a negative ion, and bromine, a halogen, loses electrons to become a positive ion.
A bromine ion can have a charge of -1.
No, bromine forms an ion with a charge of -1. An ion isoelectronic with krypton would have the same number of electrons as krypton, which is 36 electrons.
The formula for the compound formed between lithium ion (Li+) and bromine ion (Br-) is LiBr. Lithium being a group 1 element with a +1 charge and bromine being a group 17 element with a -1 charge, they combine in a 1:1 ratio to form a stable ionic compound.
The bromine ion is referred to as bromide, and it is Br^-
When bromine reacts to form an ion, it becomes isoelectronic with krypton. Both bromine (Br) and krypton (Kr) have 36 electrons in their neutral state. When bromine gains one electron to form the Br- ion, it now also has 36 electrons like krypton.
Bromine has -1 charge and Lithium has +1 charge. Therefore,only one lithium ion is required to react with a bromine ion.
-1
Selenium and bromine can form an ionic bond, where selenium, a nonmetal, gains electrons to become a negative ion, and bromine, a halogen, loses electrons to become a positive ion.
"Bromine" is the name of an atom or an element. The corresponding ion is named "bromide".
When bromine atoms form ions, they typically gain one electron to achieve a stable electron configuration, resulting in a bromide ion (Br⁻). Therefore, the expected charge for bromine when it forms an ion is -1. This is consistent with its position in Group 17 of the periodic table, where elements generally form anions with a charge of -1.
Yes, its negative ion is called Bromide = Br-
The charge of a bromine ion (Br) can be either -1 or +5, depending on its state. The most common form is the bromide ion (Br⁻), which has a charge of -1. In this state, bromine has gained one electron, achieving a stable electron configuration. Thus, the integer charge for the typical Br ion is -1.