Yes, fluorine does form monatomic anions with formula F-1.
No, fluorine is a diatomic gas at standard temperature and pressure (STP), meaning it exists as F2 molecules, not as single F atoms.
F is the symbol for fluorine. Kr is the symbol for krypton.
No, sulfur hexafluoride is not an example of a monatomic ion. Sulfur hexafluoride is a compound consisting of one sulfur atom and six fluorine atoms bonded together. Monatomic ions are single atoms that have gained or lost electrons to become charged ions.
The chemical formula for the ionic compound formed between fluorine and aluminum is AlF3. Aluminum donates three electrons to fluorine, resulting in the formation of three Al3+ cations and six F- anions, which combine in a 1:3 ratio to form AlF3.
The noble gases always exist in monatomic form: Helium, Neon, Argon, Krypton, Xenon, and Radon.
Only nonmetal elements can usually form monatomic anions, but some metallic elements, such as aluminum and iron, can form polyatomic anions that also include other very strongly electronegative elements, such as oxygen and fluorine.
No; lithium forms monatomic cations with formula Li+1.
No. Like other metals potassium forms a monatomic cation.
No, F (fluorine) is is diatomic in its elemental form.
No. Like other metals potassium forms a monatomic cation.
Both are halogens, monovalents, form anions.
Monatomic anions are formed when atoms gain one or more electrons. The number of protons in the nucleus remains the same, giving the atom a net negative charge due to having more electrons than protons.
There are at least two reasonable answers to this question: anions and cations or monatomic and polyatomic.
No, fluorine is a diatomic gas at standard temperature and pressure (STP), meaning it exists as F2 molecules, not as single F atoms.
Sulfur hexafluoride is not a monatomic ion but in fact a molecular compound.
When potassium metal reacts with fluorine gas, it undergoes a redox reaction to form potassium fluoride. The potassium metal loses an electron to form a potassium cation, and the fluorine gas gains an electron to form fluoride anions. This reaction is highly exothermic and produces a white solid as the product.
F is the symbol for fluorine. Kr is the symbol for krypton.