equivalent weight of silver nitrate = 169.87
so 0.1 N Ag NO3 = 16.987 gm /litre of AgNO3
now equivalent weight of KCl = 74.55
so 0.1 N KCl = 7.455 gm/litre
so 0.1 N AgNO3 = 0.1N KCl = 7.456 gm of KCl [ not mg ]
That should be mass, not weight. The mass of one atom of Ag doesn't depend on the size of the sample. Also, you can't "calculate" the mass of one atom from the information provided. You can look it up - or you can look up the atomic mass of Ag, and multiply it by the atomic mass unit.
The molar mass of silver is 107.87 g/mol. Therefore, the conversion factors are: 1 mol Ag = 107.87 g Ag and 107.87 g Ag = 1 mol Ag.
Aluminium because if you look at the molecular weight, Al is nearly 4 times smaller weight per atom.
The equivalent weight of hydrogen peroxide is 17 g/mol.
The equivalent weight of NaHPO4 is determined by calculating the molecular weight divided by the change in oxidation state per reacting equivalent. For NaHPO4, the molecular weight is 137.99 g/mol, and it can donate 1 equivalent of H+ or accept 1 equivalent of OH-. Therefore, the equivalent weight of NaHPO4 is 137.99 g/mol.
The equivalent of 68,3 g Ag is 0,633 moles.
That should be mass, not weight. The mass of one atom of Ag doesn't depend on the size of the sample. Also, you can't "calculate" the mass of one atom from the information provided. You can look it up - or you can look up the atomic mass of Ag, and multiply it by the atomic mass unit.
Silver: symbol Ag, atomic number 47 and atomic weight/mass 107.880
AG 10 or the equivalent LR1130 or LR54 button battery X 2
The molar mass of silver is 107.87 g/mol. Therefore, the conversion factors are: 1 mol Ag = 107.87 g Ag and 107.87 g Ag = 1 mol Ag.
the equivalent weight of chlorine is 35.453, which is also it's atomic weight.
Aluminium because if you look at the molecular weight, Al is nearly 4 times smaller weight per atom.
The equivalent weight of hydrogen peroxide is 17 g/mol.
To determine the equivalent weight from the molecular weight, you need to divide the molecular weight by the valence (or charge) of the compound. For example, for a compound with a molecular weight of 100 g/mol and a valence of 2, the equivalent weight would be 50 g/equiv.
It is equivalent to the weight of two elephants
The equivalent weight of NaHPO4 is determined by calculating the molecular weight divided by the change in oxidation state per reacting equivalent. For NaHPO4, the molecular weight is 137.99 g/mol, and it can donate 1 equivalent of H+ or accept 1 equivalent of OH-. Therefore, the equivalent weight of NaHPO4 is 137.99 g/mol.
Yes, it is