C.
Ionic bonds are formed between metal atoms, potassium in this case, and non-metal atoms, iodine in this case.
Since it is stated that nitrogen is the limiting reactant (sometimes called limiting reagent), you only have to worry about the amount of nitrogen since we know that there is excess silicon.
Since this is a stoichiometry question, the first thing to do is turn the mass of nitrogen gas into moles by dividing the mass of nitrogen gas by its molar mass. (14.33g)/(28g/mol)=0.5118mol nitrogen gas. Then you have to convert moles of nitrogen gas to moles of silicon nitride by using the fact that 2 moles of nitrogen gas turn into 1 mole of silicon nitride (i got that ratio from the chemical equation given). (0.511mol N₂)x(1mol Si₃N₄/2mol N₂)=0.2555mol Si₃N₄. Know you just need to find the mass of silicon nitride by multiplying the number of moles of silicon nitride by its molar mass. (0.2555mol)x(140g/mol)=35.85g
Therefore the amount of silicon nitride produced from this reaction 35.85g.
I hope this helps
B, because all the other are elements. You can tell because Carbon and Oxygen in CO are both capitals while something like Au is gold.
Explanation:
The ions are;
Al3+ Na+ Cl- (SO₄)₃²⁻
The Cations (Positive ions) are;
Al³⁺ Na⁺
The Anions (Negative ions) are;
Cl⁻ (SO₄)₃²⁻
Compounds are formed when cations are bonded to anions
NaCl - Formed by Na⁺ and Cl⁻
Al₂(SO₄)₃ - Formed by Al³⁺ and (SO₄)₃²⁻
AlCl₃ - Formed by Al³⁺ and Cl⁻
All cells need them to completly stay alive