The charge is 3-.
The charge on ion X in X2O3 is +3. This is because the overall charge of the compound X2O3 is neutral, and there are 3 oxygen atoms each with a charge of -2, so X must have a charge of +3 to balance the charges and make the compound neutral.
To find the molar mass of X, we need to calculate the number of moles of X2O3 gas present in the container using the ideal gas law. Once we have the number of moles, we can calculate the molar mass of X by dividing the mass of X in the given amount of X2O3 by the number of moles. This will give us the molar mass of X in grams per mole.
The ion charge of an NH4 ion is 1.
The bromide ion has a 1- charge.
The charge of the molybdenum ion is +2.
The charge on ion X in X2O3 is +3. This is because the overall charge of the compound X2O3 is neutral, and there are 3 oxygen atoms each with a charge of -2, so X must have a charge of +3 to balance the charges and make the compound neutral.
The charge of ion X in the formula X2O3 is +3. This can be determined because oxygen typically has a charge of -2 and there are 3 oxygen atoms in the formula, making the total charge of the oxygen atoms in the compound -6. This means that the charge of ion X must be +3 to balance the overall charge of the compound.
-946515634175
To find the molar mass of X, we need to calculate the number of moles of X2O3 gas present in the container using the ideal gas law. Once we have the number of moles, we can calculate the molar mass of X by dividing the mass of X in the given amount of X2O3 by the number of moles. This will give us the molar mass of X in grams per mole.
The ion charge of an NH4 ion is 1.
This is the electrical charge of the ion.
The bromide ion has a 1- charge.
A fluorine ion has a charge of minus one.
The chemical formula of silver phosphide ia Ag3P. The ion of silver is Ag+.
The charge of the molybdenum ion is +2.
No. The acetate ion has a -1 charge.
An ion does have a charge. That is what makes it an ion.