The most likely forms of ions from barium and nitrogen are Plutonium and the deadly Kryton that was used to take away Superman's Powers!
The Earth's early atmosphere was likely formed by volcanic activity, which released gases such as water vapor, carbon dioxide, nitrogen, and methane. Over time, this atmosphere evolved as a result of various geological and biological processes.
The element E is likely barium (Ba), as its electron configuration is Kr 5s2. The fluoride compound of barium would be BaF2, with barium losing its two valence electrons to form a 2+ cation and fluoride gaining one electron to form a 1- anion.
Barium is highly likely to form positively charged ions because it is a metal in Group 2 of the periodic table, which tends to lose two electrons to achieve a stable electron configuration. This results in the formation of Ba2+ ions when barium atoms lose two electrons.
Yes, a growing child is not likely to exhibit negative nitrogen balance because they require adequate protein intake for growth and development. Negative nitrogen balance typically occurs when the body is breaking down more protein than it is taking in.
barium will lose two electrons to form an ion with a plus 2 charge. Thus, the resulting ion in reactions of barium is Ba2+.Read more: http://wiki.answers.com/What_type_of_ion_would_barium_form_if_group_1_loses_one_electron_to_form_ions_with_a_1_plus_charge#ixzz17vdoXVSf
The most likely formula for the neutral ionic compound formed by lithium and nitrogen is Li3N, which consists of lithium cations (Li+) and nitride anions (N3-). This formula ensures that the charges balance out to give a neutral compound.
Nitrogen typically forms ions with a charge of -3.
Chlorine (Cl) is the most likely element to form an ionic compound with barium (Ba) due to their opposite charges and high reactivity. Barium typically forms Ba2+ ions, while chlorine forms Cl- ions, allowing them to easily combine to form BaCl2.
Highly electronegative and highly electropositive elements, e.g. Fluorine, Clorine, Oxygen, or Nitrogen and Sodium, Potassium, Rubidium, Cesium or Barium.
Hydrogen, helium, carbon, nitrogen, and oxygen are the most common elements likely to be formed in the Sun at some point in its life. These elements are produced through nuclear fusion reactions in the Sun's core.
When barium and oxygen are brought together in a chemical reaction, they will likely form barium oxide (BaO). Barium will tend to lose its two valence electrons, while oxygen will tend to gain two electrons to form a stable compound.
An atom of nitrogen (N) is most likely to bond with another nitrogen atom (N) to form a nitrogen molecule (N2).
look for nitrogen, if it has nitrogen it's likely a enzyme
The bond formed between two nitrogen atoms would most likely be a covalent bond. This is because nitrogen atoms are nonmetals and tend to share electrons to achieve a stable octet configuration, rather than transferring electrons to form an ionic bond.
Barium carbonate (BaCO3) is most likely to precipitate since it is insoluble in water. When barium ions (Ba2+) and carbonate ions (CO32-) combine in solution, they form a solid precipitate of barium carbonate.
Barium is a non renewable resource as it is mined from deep within the earth. Barium is present in 0.0425 percent in the Earth's crust and 13 µg/L in sea water. The deposits are present all over the world. However as Barium has a small commercial use, it is likely to last long.This main source of barium is barite a barium sulfate mineral.
The Earth's early atmosphere was likely formed by volcanic activity, which released gases such as water vapor, carbon dioxide, nitrogen, and methane. Over time, this atmosphere evolved as a result of various geological and biological processes.