To experimentally determine Avogadro's number, you can apply a current to a metal circuit, causing the metal to lose electrons and dissolve as ions. of the metal as well as Choose... in each ion The number of moles of electrons lost from the metal can be calculated from the Choose... formation. Choose... volume and molar volume The total number of electrons involved in the process can be calculated from the total charge and mass change mass change and molar mass Then, Avogadro's number is the Choose... divided by the Choose... the individual charge of an electron. To experimentally determine Avogadro's number, you can apply a current to a metal circuit, causing the metal to lose electrons and dissolve as ions. The number of moles of electrons lost from the metal can be calculated from the Choose... in each ion formation. of the metal as well as Choose... Choose... the total charge of electrons lost and the individual charge of an the mass of electrons lost the number of electrons lost The total number of electrons involved in the process can be calculated from the Choose... Then, Avogadro's number is the Choose... divided by the Choose... and the individual charge of an electron. The total number of electrons involved in the process can be calculated from the Choose... Choose... Then, Avogadro's number is the Choose... divided by the charge of the metal ions total charge applied mass lost by the metal The total number of electrons involved in the process can be calculated from the Choose... and the individual charge of an electron. divided by the Choose... Then, Avogadro's number is the Choose... Choose... number of moles of electrons total number of electrons molar mass of the metal The total number of electrons involved in the process can be calculated from the Choose... and the individual charge of an electron. Then, Avogadro's number is the Choose... divided by the Choose... Choose... number of moles of electrons mass of the metal ions total number of electrons