it is not possible to know the location of an electron but only the region
Charge= -1.60 x 10-19 C; Relative Charge=0
The charge on electrons is equal to -1.6 X 10-19 C. According to Heisenberg's uncertainty principle, we cannot have the exact location of an electron, only we can have the region where the probability of finding an electron is high.
A hole in a semiconductor has a net positive charge because it represents the absence of an electron, which has a negative charge. When an electron moves from its position to fill the hole, it leaves behind a positively charged location or "hole." This movement of electrons creates a current flow in the material.
The charge on electrons is equal to -1.6 X 10-19 C. According to Heisenberg's uncertainty principle, we cannot have the exact location of an electron, only we can have the region where the probability of finding an electron is high.
An electron has a negative charge.
If charge is transferred to the object at a given location, that charge is quickly distributed across the entire surface of the object. The distribution of charge is the result of electron movement.
No, an electron has a negative charge.
No. The electron and proton have the same amount of charge. Its just that the electron's charge is negative and the proton's charge is positive.
The charge on an electron is never equal to the charge on a neutron. An electron carries one negative charge and a neutron has no net charge.
Electron's have a negative charge, Protons have a positive charge.
An electron has a negative electric charge.
The electron charge is negative.
The charge on an electron is -1.602 x 10^-19 coulombs.