3 moles of (ClO4)3- and 1 mol Al
Aluminium perchlorate is Al)CLO4)3.10H2O.
Steps to take: Write the chemical formula : Al2O3 Calculate the number of moles for aluminum oxide. You should know the formula which is the mass given (0.051g) divided by the Mass of aluminum oxide. Since there is '2' moles of Aluminium you multiplly the number of moles calculated for aluminum oxide by 2. Then you have calculated the number of Ions.
The compound with the name AgClO4 is silver perchlorate. It is composed of silver (Ag) and perchlorate (ClO4-) ions.
The compound Ca(CLO4)2 is called calcium perchlorate. It consists of calcium ions (Ca²⁺) and perchlorate ions (ClO4⁻). In this formula, there are two perchlorate ions for each calcium ion, reflecting the need for charge balance in the compound.
There are approximately 1.93 x 10^24 atoms in 3.20 moles of aluminum. This calculation is based on Avogadro's number, which states that 1 mole of any substance contains 6.022 x 10^23 particles (atoms, molecules, ions, etc.).
Yes, sodium perchlorate (NaClO4) can exist in the aqueous state when dissolved in water. In this state, it will dissociate into sodium ions (Na+) and perchlorate ions (ClO4-), which are surrounded by water molecules.
0,6 moles of (ClO4)3- and 0,2 mol Al
There would be 4.38 moles of fluoride ions in 1.46 moles of aluminum fluoride, as the formula for aluminum fluoride is AlF3 with three fluoride ions per molecule of aluminum fluoride.
Steps to take: Write the chemical formula : Al2O3 Calculate the number of moles for aluminum oxide. You should know the formula which is the mass given (0.051g) divided by the Mass of aluminum oxide. Since there is '2' moles of Aluminium you multiplly the number of moles calculated for aluminum oxide by 2. Then you have calculated the number of Ions.
aluminium chloride is a compound which has one Al3+ ion and three Cl- ions per molecule.
To find the moles of sulfate ions in the solution, you first need to determine the moles of aluminum sulfide present. Since you are not provided with the amount of aluminum sulfide, you cannot calculate the moles of sulfate ions. Additionally, oxygen is not relevant to determining the moles of sulfate ions.
The formula for aluminum oxide is Al2O3, which means that, if aluminum oxide is ionically bonded, every formula mass of aluminum oxide contains three O-2 ions. In this instance, 0.65 formula masses of aluminum oxide would contain 3 X 0.65 or 1.95 moles of O2-. If aluminum oxide were covalently bonded, it would not contain any O-2 ions.
To find the number of moles of chloride ions in aluminum chloride, you first need to convert 0.2520g of aluminum chloride to moles. Then, since there are three chloride ions per one aluminum chloride molecule, you would multiply the number of moles of aluminum chloride by 3 to find the moles of chloride ions.
The chlorate anion is ClO3^-The perchlorate anion is ClO4^- So, the difference is that perchlorate has ONE MORE oxygen than chlorate
Aluminum chloride contains 3 chlorine atoms per molecular unit. Therefore, in 3 moles there are 3 times Avogadro's number of chloride ions = 1.807 X 1024.
The chemical formula for potassium perchlorate is KClO4. When dissolved in water, it dissociates into potassium ions (K+) and perchlorate ions (ClO4-).
The compound with the name AgClO4 is silver perchlorate. It is composed of silver (Ag) and perchlorate (ClO4-) ions.
The formula shows that 2 aluminum atoms are present in each formula unit, which is, for ionically bonded compound, the alternative to "molecule" for a covalently bonded compound. The formula unit for aluminum itself is generally considered to consist of single atom. Therefore, 0.5 mole of the compound will contain 1.00 moles of aluminum.