Sodium and sulfur form an ionic bond when they combine to make sodium sulfide. Sodium loses an electron to become a positively charged ion (Na+), while sulfur gains two electrons to become a negatively charged ion (S2-).
The ion most commonly associated with sulfur is the sulfide ion, which has a charge of -2 and a chemical formula of S2-.
No, magnesium and sulfur would not form an ionic compound because they are both nonmetals. Ionic compounds are formed between a metal and a nonmetal. Magnesium and sulfur would likely form a covalent compound instead.
No, calcium and sulfur do not typically form a covalent bond because calcium typically forms ionic bonds by donating its two valence electrons to sulfur, which is a nonmetal. Calcium and sulfur would form an ionic bond in a compound like calcium sulfide (CaS).
Yes, chlorine and iodine can form an ionic compound known as sodium iodide when combined with a metal such as sodium. This compound is formed by the transfer of electrons from sodium to iodine, leading to the formation of ions with opposite charges that are held together by electrostatic forces.
Sodium and sulfur form an ionic bond when they combine to make sodium sulfide. Sodium loses an electron to become a positively charged ion (Na+), while sulfur gains two electrons to become a negatively charged ion (S2-).
The sodium and sulfur elements make the compound of sodium sulfide or Na(2)S. *(2)=subscript 2 The reason for this is because this is an example of an ionic bond (or a bond between a metal and a non-metal) in this case the Sodium is a metal and the sulfur is a non-metal. Since sodium has a charge of +1 and sulfur has a charge of -2 there has to be 2 sodium and one sulfur, thus making the charges of the two elements cancel out.
The ion most commonly associated with sulfur is the sulfide ion, which has a charge of -2 and a chemical formula of S2-.
No, magnesium and sulfur would not form an ionic compound because they are both nonmetals. Ionic compounds are formed between a metal and a nonmetal. Magnesium and sulfur would likely form a covalent compound instead.
Sulfur and oxygen can form compounds, but typically they form covalent compounds instead of ionic compounds. This is because both sulfur and oxygen are nonmetals, which tend to share electrons rather than transfer them to form ions. Examples of covalent compounds between sulfur and oxygen include sulfur dioxide (SO2) and sulfur trioxide (SO3).
covalent bonds
No, calcium and sulfur do not typically form a covalent bond because calcium typically forms ionic bonds by donating its two valence electrons to sulfur, which is a nonmetal. Calcium and sulfur would form an ionic bond in a compound like calcium sulfide (CaS).
Yes, chlorine and iodine can form an ionic compound known as sodium iodide when combined with a metal such as sodium. This compound is formed by the transfer of electrons from sodium to iodine, leading to the formation of ions with opposite charges that are held together by electrostatic forces.
Many metals form ionic sulfides containing the S2- ion, , for example sodium, Na2S sodium sulfide. Iron forms a sulfide, FeS, iron(II) sulfide and a disulfide, containing the S22- ion, iron, iron(II) disulfide, FeS2 , "fools gold"
No, NaOH does not have a covalent bond. It is an ionic compound consisting of sodium ions (Na+) and hydroxide ions (OH-), held together by ionic bonds.
Gold and sulfur can form a bond to create gold(I) sulfide, also known as aurous sulfide (Au2S). This compound is a black solid and is considered a type of gold sulfide.
The compound made by combining sulfur with oxygen to make SO2 is called sulfur dioxide.