First, find how many copper atoms make up the ball:
moles of atoms = (49.3 g) / (63.5 g per mol of atoms) = 0.77638mol
# of atoms = (0.77638 mol) (6.02 × 10^23 atoms per mol) = 4.6738*10^23 atoms
There is normally one electron for every proton in copper. This means there are normally 29 electrons per atom:
normal # electrons = (4.6738 × 10^23 atoms) (29 electrons per atom) = 1.3554× 10^25 electrons
Currently, the charge in the ball is 2.0 µC, which means -2.0 µC worth of electrons have been removed.
# removed electrons = (-2.0 µC) / (1.602 × 10^-13 µC per electron) = 1.2484 × 10^13 electrons removed
# removed electrons / normal # electrons =
(1.2484 × 10^13 electrons removed) / (1.3554 × 10^25 electrons) = 9.21 × 10^-13
That's 1 / 9.21 × 10^13