According to the fundamental law of electricity, how does voltage affect electron flow?

The correct response underscores a key principle in electrical theory, which is that electron flow, or current, is directly related to voltage via Ohm's Law. According to this law, current (I) is equal to the voltage (V) across a conductor divided by the resistance (R) of that conductor (I = V/R).

When voltage increases, it creates a stronger "push" on the electrons within a circuit, leading to an increase in the flow of electrons, provided the resistance remains constant. This relationship illustrates that as you apply more voltage, you enable more electrons to move through the circuit, thereby increasing the current.

Conversely, if voltage decreases, the driving force behind the electron flow diminishes, which can lead to a reduced current. This principle highlights the essential nature of voltage as a critical factor in determining electron movement in electrical circuits.