Iron and krypton cannot chemically combine because they belong to different chemical groups. Iron is a metal, while krypton is a noble gas, which is typically inert and does not form chemical bonds with other elements.
Iron commonly combines with oxygen.
Reactants: iron an oxygen Product: iron(III) oxide, Fe2O3
The formation of iron sulfide is a synthesis reaction because it involves the combination of iron and sulfur to produce iron sulfide as a single product. In this reaction, the two reactants combine to form a new compound, iron sulfide, without any additional byproducts.
When Fe3+ and HCO3- combine, iron(III) bicarbonate or iron(III) hydrogen carbonate is formed. This compound is soluble in water and can undergo reactions that release carbon dioxide gas.
Iron(II) Nitrite Fe(NO2)2 Molecular Weight -- EndMemo
B. Iron.
No, it is a pure substance; it is an element
Iron commonly combines with oxygen.
reactants: iron and oxygen products: rust (aka: iron (II) oxide or FeO)
sodium
iron sulfide
it is a monatomic gas, and it being a noble gas, it does not usually combine with other elements. Although under certain conditions noble gasses are used in Excimer Lasers, such as Krypton Fluoride.
The element Iron (Fe) will combine with most elements. Here are some examples of elemental compounds that include Iron;Iron OxideIron SulphateIron BromideIron NitratePotassium FerrateBarium Ferrate
Krypton is a noble gas and does not readily react with oxygen under normal conditions. The two elements may combine under extreme conditions, such as high temperatures and pressures, to form krypton oxides. However, these compounds are not stable and quickly decompose back into their respective elements.
The two atoms that combine are a metal atom and an oxygen atom.
Those chemicals do not combine to make any one compound.
Mars is the planet where iron rocks combine with oxygen to form iron oxide, giving the planet its characteristic reddish appearance. This iron oxide, also known as rust, is what gives Mars its distinctive red coloration.