The ratio of aluminum to chlorine in aluminum chloride is 1:3. This means for every one atom of aluminum, there are three atoms of chlorine in the compound.
The chemical formula of aluminium chloride is AlCl3; the ratio Al/Cl is 1/3.
In an aqueous solution of calcium chloride, the ions present are Ca²⁺ (calcium) and Cl⁻ (chloride) in a 1:2 ratio. This means for every calcium ion, there are two chloride ions present in the solution.
The answer is a 1:1 ratio! I hope this helped
The ratio of lithium to chlorine in lithium chloride is 1:1. This means that one lithium ion combines with one chloride ion to form a stable compound.
The mole ratio of copper to chloride in copper chloride (CuCl) is 1:2. This means that for every one mole of copper, there are two moles of chloride.
The atomic ratio between sodium and chlorine in sodium chloride is 1:1, as indicated by its formula NaCl. If the mass ratio is wanted, it is that of the atomic weights of the two elements.
If you have a fake (silver) tooth and you chew aluminum OH it says alumunium!Yea, well whatever THAT is, I don't know. But I thought it said ALUMINUM, not ALUMUNIUM! So whatever and bye!
for what or in what?
density of almunium
The ratio of sodium to chloride in sodium chloride (NaCl) is 1:1. This means that for every sodium ion present, there is one chloride ion present in the compound.
In sodium chloride, the ratio is 1/1.
The ratio of atoms in mercurous chloride (Hg2Cl2) is 2:2:2, as there are two atoms of mercury (Hg) and two atoms of chlorine (Cl) in each molecule of mercurous chloride. This means the ratio of mercury to chlorine atoms in mercurous chloride is 1:1.
Yes. All metals are.
Lite salt is a mixture 1:1 of sodium and potassium chloride.This is a mixture sodium chloride/potassium chloride in the ratio 1:1.
The chemical formula of aluminium chloride is AlCl3; the ratio Al/Cl is 1/3.
Table salt (sodium chloride) has a 1:1 ratio of sodium to chloride ions. Each molecule of sodium chloride consists of one sodium ion (Na+) and one chloride ion (Cl-).
To find the amount of calcium chloride needed, you would first need to determine the molar ratio between calcium chloride and potassium chloride in the chemical reaction. Then, you could use this ratio to calculate the amount of calcium chloride required to produce 10 g of potassium chloride. The molar ratio is 1:1, so the same amount of calcium chloride as potassium chloride, 10 g, would be needed.