Barium (Ba) and selenium (Se) can react to form barium selenide (BaSe), a compound that consists of barium cations and selenide anions. Barium selenide is typically a solid at room temperature and can be used in various applications, including electronics and as a semiconductor material. The reaction between barium and selenium involves the transfer of electrons, typical of metal and non-metal interactions.
Barium Selenide ---> Ba2+Se2- ---> BaSe
Barium selenide is BaSe.
An ionic compound, Barium selenide or BaSe is formed, with the ions Ba2+ and Se2-.
The chemical equation for the reaction between barium and selenium is: Ba + Se → BaSe. This reaction forms barium selenide.
The formula of the ionic compound formed between barium and selenium is BaSe. Barium, which has a +2 charge as an alkaline earth metal, combines with selenium, which typically has a -2 charge as a chalcogen. The charges balance each other out, resulting in a 1:1 ratio of barium ions to selenium ions in the compound.
Barium Selenide ---> Ba2+Se2- ---> BaSe
Barium selenide is BaSe.
An ionic compound, Barium selenide or BaSe is formed, with the ions Ba2+ and Se2-.
The chemical equation for the reaction between barium and selenium is: Ba + Se → BaSe. This reaction forms barium selenide.
barium
The ionic compound of BaSe is barium selenide. Barium (Ba) is a metal with a 2+ charge, and selenium (Se) is a nonmetal with a 2- charge. When they combine in a 1:1 ratio, they form an ionic compound with the formula BaSe.
Barium is unlikely to form a positively charged ion because it is an alkaline earth metal with a strong tendency to lose electrons and form a 2+ ion.
Rubidium 1+ Barium 2+ Chlorine 1- Selenium 2- Francium 1+
No.
Selenium dioxide, SeO2
It is the characteristic colour of a barium flame.
89.3